diff --git a/CMake/FindNumpy.cmake b/CMake/FindNumpy.cmake index 1c8cb85820..a852da083d 100644 --- a/CMake/FindNumpy.cmake +++ b/CMake/FindNumpy.cmake @@ -1,25 +1,25 @@ # Variables set by this script # NUMPY_FOUND # NUMPY_INCLUDE_DIR find_package(PackageHandleStandardArgs) -set(_python ${PYTHON_EXECUTABLE}) +set(_python ${Python3_EXECUTABLE}) if(UNIX) - STRING(REPLACE " " "\ " _python ${PYTHON_EXECUTABLE}) + STRING(REPLACE " " "\ " _python ${Python3_EXECUTABLE}) endif() execute_process ( COMMAND ${_python} -c "import os; os.environ['DISTUTILS_USE_SDK']='1'; import numpy.distutils; print( numpy.distutils.misc_util.get_numpy_include_dirs()[0])" OUTPUT_VARIABLE output OUTPUT_STRIP_TRAILING_WHITESPACE ) if(DEFINED output AND EXISTS ${output} ) set (NUMPY_INCLUDE_DIR ${output}) endif() FIND_PACKAGE_HANDLE_STANDARD_ARGS(Numpy DEFAULT_MSG NUMPY_INCLUDE_DIR) MARK_AS_ADVANCED ( NUMPY_INCLUDE_DIR ) diff --git a/CMake/MITKDashboardSetup.cmake b/CMake/MITKDashboardSetup.cmake index 7460e9ef54..6af22b44e2 100644 --- a/CMake/MITKDashboardSetup.cmake +++ b/CMake/MITKDashboardSetup.cmake @@ -1,161 +1,161 @@ # This file is intended to be included at the end of a custom MITKDashboardScript.TEMPLATE.cmake file list(APPEND CTEST_NOTES_FILES "${CTEST_SCRIPT_DIRECTORY}/${CTEST_SCRIPT_NAME}") # # Automatically determined properties # set(MY_OPERATING_SYSTEM ) if(UNIX) # Download a utility script # See T24757. # if(IS_PHABRICATOR_URL) # set(url "https://phabricator.mitk.org/source/mitk/browse/${GIT_BRANCH}/CMake/mitkDetectOS.sh?view=raw") # else() set(url "https://raw.githubusercontent.com/MITK/MITK/master/CMake/mitkDetectOS.sh") # endif() set(dest "${CTEST_SCRIPT_DIRECTORY}/mitkDetectOS.sh") downloadFile("${url}" "${dest}") execute_process(COMMAND sh "${dest}" RESULT_VARIABLE _result OUTPUT_VARIABLE _out OUTPUT_STRIP_TRAILING_WHITESPACE) if(NOT _result) set(MY_OPERATING_SYSTEM "${_out}") endif() endif() if(NOT MY_OPERATING_SYSTEM) set(MY_OPERATING_SYSTEM "${CMAKE_HOST_SYSTEM}") # Windows 7, Linux-2.6.32, Darwin... endif() site_name(CTEST_SITE) if(NOT DEFINED MITK_USE_Qt5) set(MITK_USE_Qt5 1) endif() if(MITK_USE_Qt5) if(NOT QT_QMAKE_EXECUTABLE) find_program(QT_QMAKE_EXECUTABLE NAMES qmake qmake-qt5 HINTS ${QT_BINARY_DIR}) endif() execute_process(COMMAND ${QT_QMAKE_EXECUTABLE} --version OUTPUT_VARIABLE MY_QT_VERSION RESULT_VARIABLE qmake_error) if(qmake_error) message(FATAL_ERROR "Error when executing ${QT_QMAKE_EXECUTABLE} --version\n${qmake_error}") endif() string(REGEX REPLACE ".*Qt version ([0-9.]+) .*" "\\1" MY_QT_VERSION ${MY_QT_VERSION}) endif() # # Project specific properties # if(NOT CTEST_BUILD_NAME) if(MITK_USE_Qt5) set(CTEST_BUILD_NAME "${MY_OPERATING_SYSTEM} ${MY_COMPILER} Qt${MY_QT_VERSION} ${CTEST_BUILD_CONFIGURATION}") else() set(CTEST_BUILD_NAME "${MY_OPERATING_SYSTEM} ${MY_COMPILER} ${CTEST_BUILD_CONFIGURATION}") endif() set(CTEST_BUILD_NAME "${CTEST_BUILD_NAME}${CTEST_BUILD_NAME_SUFFIX}") endif() set(PROJECT_BUILD_DIR "MITK-build") set(CTEST_PATH "$ENV{PATH}") if(WIN32) if("${CTEST_CMAKE_GENERATOR}" MATCHES ".*Win64") set(CMAKE_LIBRARY_ARCHITECTURE x64) else() set(CMAKE_LIBRARY_ARCHITECTURE x86) endif() string(SUBSTRING "${MY_COMPILER}" 2 2 vc_version) set(OPENCV_BIN_DIR "${CTEST_BINARY_DIRECTORY}/ep/${CMAKE_LIBRARY_ARCHITECTURE}/vc${vc_version}/bin") set(BLUEBERRY_RUNTIME_DIR "${CTEST_BINARY_DIRECTORY}/MITK-build/bin/plugins/${CTEST_BUILD_CONFIGURATION}") set(PYTHON_BINARY_DIRS "${CTEST_BINARY_DIRECTORY}/ep/src/CTK-build/CMakeExternals/Install/bin") - get_filename_component(_python_dir "${PYTHON_EXECUTABLE}" DIRECTORY) + get_filename_component(_python_dir "${Python3_EXECUTABLE}" DIRECTORY) list(APPEND PYTHON_BINARY_DIRS "${_python_dir}") set(CTEST_PATH "${CTEST_PATH};${CTEST_BINARY_DIRECTORY}/ep/bin;${QT_BINARY_DIR};${BLUEBERRY_RUNTIME_DIR};${OPENCV_BIN_DIR};${PYTHON_BINARY_DIRS}") endif() set(ENV{PATH} "${CTEST_PATH}") # If the dashscript doesn't define a GIT_REPOSITORY variable, let's define it here. if(NOT DEFINED GIT_REPOSITORY OR GIT_REPOSITORY STREQUAL "") set(GIT_REPOSITORY "https://phabricator.mitk.org/source/mitk.git") endif() # # Display build info # message("Site name: ${CTEST_SITE}") message("Build name: ${CTEST_BUILD_NAME}") message("Script Mode: ${SCRIPT_MODE}") message("Coverage: ${WITH_COVERAGE}, MemCheck: ${WITH_MEMCHECK}") # # Set initial cache options # if(CTEST_CMAKE_GENERATOR MATCHES ".*Makefiles.*") set(CTEST_USE_LAUNCHERS 1) else() set(CTEST_USE_LAUNCHERS 0) endif() set(ENV{CTEST_USE_LAUNCHERS_DEFAULT} ${CTEST_USE_LAUNCHERS}) # Remove this if block after all dartclients work if(DEFINED ADDITIONNAL_CMAKECACHE_OPTION) message(WARNING "Rename ADDITIONNAL to ADDITIONAL in your dartlclient script: ${CTEST_SCRIPT_DIRECTORY}/${CTEST_SCRIPT_NAME}") set(ADDITIONAL_CMAKECACHE_OPTION ${ADDITIONNAL_CMAKECACHE_OPTION}) endif() if(NOT DEFINED MITK_BUILD_CONFIGURATION) set(MITK_BUILD_CONFIGURATION "All") endif() if(NOT DEFINED MITK_VTK_DEBUG_LEAKS) set(MITK_VTK_DEBUG_LEAKS 1) endif() set(INITIAL_CMAKECACHE_OPTIONS " SUPERBUILD_EXCLUDE_MITKBUILD_TARGET:BOOL=TRUE MITK_BUILD_CONFIGURATION:STRING=${MITK_BUILD_CONFIGURATION} MITK_VTK_DEBUG_LEAKS:BOOL=${MITK_VTK_DEBUG_LEAKS} ${ADDITIONAL_CMAKECACHE_OPTION} ") if(MITK_USE_Qt5) set(INITIAL_CMAKECACHE_OPTIONS "${INITIAL_CMAKECACHE_OPTIONS} QT_QMAKE_EXECUTABLE:FILEPATH=${QT_QMAKE_EXECUTABLE}") endif() # Write a cache file for populating the MITK initial cache (not the superbuild cache). # This can be used to provide variables which are not passed through the # superbuild process to the MITK configure step) if(MITK_INITIAL_CACHE) set(mitk_cache_file "${CTEST_SCRIPT_DIRECTORY}/mitk_initial_cache.txt") file(WRITE "${mitk_cache_file}" "${MITK_INITIAL_CACHE}") set(INITIAL_CMAKECACHE_OPTIONS "${INITIAL_CMAKECACHE_OPTIONS} MITK_INITIAL_CACHE_FILE:INTERNAL=${mitk_cache_file} ") endif() # # Download and include dashboard driver script # if(IS_PHABRICATOR_URL) string(REPLACE "/" "%252F" GIT_BRANCH_URL ${GIT_BRANCH}) set(url "https://phabricator.mitk.org/source/mitk/browse/${GIT_BRANCH_URL}/CMake/MITKDashboardDriverScript.cmake?view=raw") else() set(url "https://raw.githubusercontent.com/MITK/MITK/master/CMake/MITKDashboardDriverScript.cmake") endif() set(dest ${CTEST_SCRIPT_DIRECTORY}/${CTEST_SCRIPT_NAME}.driver) downloadFile("${url}" "${dest}") include(${dest}) diff --git a/CMake/PackageDepends/MITK_PythonLibs_Config.cmake b/CMake/PackageDepends/MITK_PythonLibs_Config.cmake index 7c1888d59a..db32bee69f 100644 --- a/CMake/PackageDepends/MITK_PythonLibs_Config.cmake +++ b/CMake/PackageDepends/MITK_PythonLibs_Config.cmake @@ -1,3 +1,3 @@ -list(APPEND ALL_LIBRARIES ${PYTHON_LIBRARIES}) -list(APPEND ALL_INCLUDE_DIRECTORIES ${PYTHON_INCLUDE_DIRS}) +list(APPEND ALL_LIBRARIES ${Python3_LIBRARIES}) +list(APPEND ALL_INCLUDE_DIRECTORIES ${Python3_INCLUDE_DIRS}) list(APPEND ALL_INCLUDE_DIRECTORIES ${NUMPY_INCLUDE_DIR}) diff --git a/CMake/mitkFunctionGetLibrarySearchPaths.cmake b/CMake/mitkFunctionGetLibrarySearchPaths.cmake index 470f75bf72..0828a1eafb 100644 --- a/CMake/mitkFunctionGetLibrarySearchPaths.cmake +++ b/CMake/mitkFunctionGetLibrarySearchPaths.cmake @@ -1,197 +1,191 @@ #! Helper function that gets all library search paths. #! #! Usage: #! #! mitkFunctionGetLibrarySearchPaths(search_path intermediate_dir [DEBUG|MINSIZEREL|RELWITHDEBINFO]) #! #! #! The function creates the variable ${search_path}. The variable intermediate_dir contains #! paths that should be added to the search_path but should not be checked for existance, #! because the are not yet created. The option DEBUG, MINSIZEREL or RELWITHDEBINFO can be used to indicate that #! not the paths for release configuration are requested but the debug, min size release or "release with debug info" #! paths. #! function(mitkFunctionGetLibrarySearchPaths search_path intermediate_dir) cmake_parse_arguments(PARSE_ARGV 2 GLS "RELEASE;DEBUG;MINSIZEREL;RELWITHDEBINFO" "" "") set(_dir_candidates "${MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY}" "${MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY}/plugins" "${MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY}" "${MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY}/plugins" ) if(MITK_EXTERNAL_PROJECT_PREFIX) list(APPEND _dir_candidates "${MITK_EXTERNAL_PROJECT_PREFIX}/bin" "${MITK_EXTERNAL_PROJECT_PREFIX}/lib" ) endif() # Determine the Qt5 library installation prefix set(_qmake_location ) if(MITK_USE_Qt5 AND TARGET ${Qt5Core_QMAKE_EXECUTABLE}) get_property(_qmake_location TARGET ${Qt5Core_QMAKE_EXECUTABLE} PROPERTY IMPORT_LOCATION) endif() if(_qmake_location) if(NOT _qt_install_libs) if(WIN32) execute_process(COMMAND ${_qmake_location} -query QT_INSTALL_BINS OUTPUT_VARIABLE _qt_install_libs OUTPUT_STRIP_TRAILING_WHITESPACE) else() execute_process(COMMAND ${_qmake_location} -query QT_INSTALL_LIBS OUTPUT_VARIABLE _qt_install_libs OUTPUT_STRIP_TRAILING_WHITESPACE) endif() file(TO_CMAKE_PATH "${_qt_install_libs}" _qt_install_libs) set(_qt_install_libs ${_qt_install_libs} CACHE INTERNAL "Qt library installation prefix" FORCE) endif() if(_qt_install_libs) list(APPEND _dir_candidates ${_qt_install_libs}) endif() elseif(MITK_USE_Qt5) message(WARNING "The qmake executable could not be found.") endif() get_property(_additional_paths GLOBAL PROPERTY MITK_ADDITIONAL_LIBRARY_SEARCH_PATHS) if(MITK_USE_HDF5) FIND_PACKAGE(HDF5 COMPONENTS C HL NO_MODULE REQUIRED shared) get_target_property(_location hdf5-shared LOCATION) get_filename_component(_location ${_location} PATH) list(APPEND _additional_paths ${_location}) # This is a work-around. The hdf5-config.cmake file is not robust enough # to be included several times via find_pakcage calls. set(HDF5_LIBRARIES ${HDF5_LIBRARIES} PARENT_SCOPE) endif() if(MITK_USE_Vigra) # we cannot use _find_package(Vigra) here because the vigra-config.cmake file # always includes the target-exports files without using an include guard. This # would lead to errors when another find_package(Vigra) call is processed. The # (bad) assumption here is that for the time being, only the Classification module # is using Vigra. if(UNIX) list(APPEND _additional_paths ${Vigra_DIR}/lib) else() list(APPEND _additional_paths ${Vigra_DIR}/bin) endif() endif() if(_additional_paths) list(APPEND _dir_candidates ${_additional_paths}) endif() # The code below is sub-optimal. It makes assumptions about # the structure of the build directories, pointed to by # the *_DIR variables. Instead, we should rely on package # specific "LIBRARY_DIRS" variables, if they exist. if(WIN32) list(APPEND _dir_candidates "${ITK_DIR}/bin") endif() if(MITK_USE_MatchPoint) if(WIN32) list(APPEND _dir_candidates "${MatchPoint_DIR}/bin") else() list(APPEND _dir_candidates "${MatchPoint_DIR}/lib") endif() endif() # If OpenCV is built within the MITK superbuild set the binary directory # according to the lib path provided by OpenCV. # In the case where an external OpenCV is provided use the binary directory # of this OpenCV directory if(MITK_USE_OpenCV) if(WIN32) if (EXISTS ${OpenCV_LIB_PATH}) list(APPEND _dir_candidates "${OpenCV_LIB_PATH}/../bin") # OpenCV is built in superbuild else() list(APPEND _dir_candidates "${OpenCV_DIR}/bin") # External OpenCV build is used endif() endif() endif() - if(MITK_USE_Python) - list(APPEND _dir_candidates "${CTK_DIR}/CMakeExternals/Install/bin") - get_filename_component(_python_dir ${PYTHON_EXECUTABLE} DIRECTORY) - list(APPEND _dir_candidates "${_python_dir}") - endif() - if(MITK_USE_TOF_PMDO3 OR MITK_USE_TOF_PMDCAMCUBE OR MITK_USE_TOF_PMDCAMBOARD) list(APPEND _dir_candidates "${MITK_PMD_SDK_DIR}/plugins" "${MITK_PMD_SDK_DIR}/bin") endif() if(MITK_USE_CTK) list(APPEND _dir_candidates "${CTK_LIBRARY_DIRS}") foreach(_ctk_library ${CTK_LIBRARIES}) if(${_ctk_library}_LIBRARY_DIRS) list(APPEND _dir_candidates "${${_ctk_library}_LIBRARY_DIRS}") endif() endforeach() endif() if(MITK_USE_BLUEBERRY) if(DEFINED CTK_PLUGIN_RUNTIME_OUTPUT_DIRECTORY) if(IS_ABSOLUTE "${CTK_PLUGIN_RUNTIME_OUTPUT_DIRECTORY}") list(APPEND _dir_candidates "${CTK_PLUGIN_RUNTIME_OUTPUT_DIRECTORY}") else() list(APPEND _dir_candidates "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${CTK_PLUGIN_RUNTIME_OUTPUT_DIRECTORY}") endif() endif() endif() if(MITK_LIBRARY_DIRS) list(APPEND _dir_candidates ${MITK_LIBRARY_DIRS}) endif() ################################################################### #get the search paths added by the mitkFunctionAddLibrarySearchPath file(GLOB _additional_path_info_files "${MITK_SUPERBUILD_BINARY_DIR}/MITK-AdditionalLibPaths/*.cmake") foreach(_additional_path_info_file ${_additional_path_info_files}) get_filename_component(_additional_info_name ${_additional_path_info_file} NAME_WE) include(${_additional_path_info_file}) if(GLS_DEBUG) list(APPEND _dir_candidates ${${_additional_info_name}_ADDITIONAL_DEBUG_LIBRARY_SEARCH_PATHS}) elseif(GLS_MINSIZEREL) list(APPEND _dir_candidates ${${_additional_info_name}_ADDITIONAL_MINSIZEREL_LIBRARY_SEARCH_PATHS}) elseif(GLS_RELWITHDEBINFO) list(APPEND _dir_candidates ${${_additional_info_name}_ADDITIONAL_RELWITHDEBINFO_LIBRARY_SEARCH_PATHS}) else() #Release list(APPEND _dir_candidates ${${_additional_info_name}_ADDITIONAL_RELEASE_LIBRARY_SEARCH_PATHS}) endif() endforeach(_additional_path_info_file ${_additional_path_info_files}) ############################################### #sanitize all candidates and compile final list list(REMOVE_DUPLICATES _dir_candidates) set(_search_dirs ) foreach(_dir ${_dir_candidates}) if(EXISTS "${_dir}/${intermediate_dir}") list(APPEND _search_dirs "${_dir}/${intermediate_dir}") else() list(APPEND _search_dirs "${_dir}") endif() endforeach() # Special handling for "internal" search dirs. The intermediate directory # might not have been created yet, so we can't check for its existence. # Hence we just add it for Windows without checking. set(_internal_search_dirs "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}" "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/plugins") if(WIN32) foreach(_dir ${_internal_search_dirs}) set(_search_dirs "${_dir}/${intermediate_dir}" ${_search_dirs}) endforeach() else() set(_search_dirs ${_internal_search_dirs} ${_search_dirs}) endif() list(REMOVE_DUPLICATES _search_dirs) set(${search_path} ${_search_dirs} PARENT_SCOPE) endfunction() diff --git a/CMakeExternals/CTK.cmake b/CMakeExternals/CTK.cmake index 358bc81c5f..7c032ec012 100644 --- a/CMakeExternals/CTK.cmake +++ b/CMakeExternals/CTK.cmake @@ -1,101 +1,100 @@ #----------------------------------------------------------------------------- # CTK #----------------------------------------------------------------------------- if(MITK_USE_CTK) # Sanity checks if(DEFINED CTK_DIR AND NOT EXISTS ${CTK_DIR}) message(FATAL_ERROR "CTK_DIR variable is defined but corresponds to non-existing directory") endif() set(proj CTK) set(proj_DEPENDENCIES DCMTK) set(CTK_DEPENDS ${proj}) if(NOT DEFINED CTK_DIR) set(revision_tag 6c0eddaa) set(ctk_optional_cache_args ) if(MITK_USE_Python) list(APPEND ctk_optional_cache_args -DCTK_LIB_Scripting/Python/Widgets:BOOL=ON -DCTK_ENABLE_Python_Wrapping:BOOL=OFF -DCTK_APP_ctkSimplePythonShell:BOOL=ON - -DPYTHON_EXECUTABLE:FILEPATH=${PYTHON_EXECUTABLE} - -DPYTHON_INCLUDE_DIR:PATH=${PYTHON_INCLUDE_DIR} - -DPYTHON_INCLUDE_DIR2:PATH=${PYTHON_INCLUDE_DIR2} - -DPYTHON_LIBRARY:FILEPATH=${PYTHON_LIBRARY} + -DPython3_EXECUTABLE:FILEPATH=${Python3_EXECUTABLE} + -DPython3_INCLUDE_DIR:PATH=${Python3_INCLUDE_DIR} + -DPython3_LIBRARY:FILEPATH=${Python3_LIBRARY} ) else() list(APPEND ctk_optional_cache_args -DCTK_LIB_Scripting/Python/Widgets:BOOL=OFF -DCTK_ENABLE_Python_Wrapping:BOOL=OFF -DCTK_APP_ctkSimplePythonShell:BOOL=OFF ) endif() if(NOT MITK_USE_Python) list(APPEND ctk_optional_cache_args -DDCMTK_CMAKE_DEBUG_POSTFIX:STRING=d ) endif() if(CTEST_USE_LAUNCHERS) list(APPEND ctk_optional_cache_args "-DCMAKE_PROJECT_${proj}_INCLUDE:FILEPATH=${CMAKE_ROOT}/Modules/CTestUseLaunchers.cmake" ) endif() FOREACH(type RUNTIME ARCHIVE LIBRARY) IF(DEFINED CTK_PLUGIN_${type}_OUTPUT_DIRECTORY) LIST(APPEND mitk_optional_cache_args -DCTK_PLUGIN_${type}_OUTPUT_DIRECTORY:PATH=${CTK_PLUGIN_${type}_OUTPUT_DIRECTORY}) ENDIF() ENDFOREACH() ExternalProject_Add(${proj} LIST_SEPARATOR ${sep} URL ${MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL}/CTK_${revision_tag}.tar.gz URL_MD5 c8025c0009d5dd207cd442eadca409b4 UPDATE_COMMAND "" INSTALL_COMMAND "" CMAKE_GENERATOR ${gen} CMAKE_ARGS ${ep_common_args} ${ctk_optional_cache_args} # The CTK PluginFramework cannot cope with # a non-empty CMAKE_DEBUG_POSTFIX for the plugin # libraries yet. -DCMAKE_DEBUG_POSTFIX:STRING= -DCTK_QT_VERSION:STRING=5 -DQt5_DIR=${Qt5_DIR} -DGit_EXECUTABLE:FILEPATH=${GIT_EXECUTABLE} -DGIT_EXECUTABLE:FILEPATH=${GIT_EXECUTABLE} -DCTK_LIB_CommandLineModules/Backend/LocalProcess:BOOL=ON -DCTK_LIB_CommandLineModules/Frontend/QtGui:BOOL=ON -DCTK_LIB_PluginFramework:BOOL=ON -DCTK_LIB_DICOM/Widgets:BOOL=ON -DCTK_LIB_XNAT/Core:BOOL=ON -DCTK_PLUGIN_org.commontk.eventadmin:BOOL=ON -DCTK_PLUGIN_org.commontk.configadmin:BOOL=ON -DCTK_USE_GIT_PROTOCOL:BOOL=OFF -DDCMTK_DIR:PATH=${DCMTK_DIR} -DPythonQt_URL:STRING=${MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL}/PythonQt_e39be131.tar.gz # From https://github.com/kislinsk/PythonQt.git CMAKE_CACHE_ARGS ${ep_common_cache_args} CMAKE_CACHE_DEFAULT_ARGS ${ep_common_cache_default_args} DEPENDS ${proj_DEPENDENCIES} ) ExternalProject_Get_Property(${proj} binary_dir) set(CTK_DIR ${binary_dir}) else() mitkMacroEmptyExternalProject(${proj} "${proj_DEPENDENCIES}") endif() endif() diff --git a/CMakeLists.txt b/CMakeLists.txt index 0db6dab51b..d70a722b74 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -1,1360 +1,1355 @@ set(MITK_CMAKE_MINIMUM_REQUIRED_VERSION 3.13) cmake_minimum_required(VERSION ${MITK_CMAKE_MINIMUM_REQUIRED_VERSION}) #----------------------------------------------------------------------------- # See https://cmake.org/cmake/help/v3.10/manual/cmake-policies.7.html for details #----------------------------------------------------------------------------- set(project_policies ) foreach(policy ${project_policies}) if(POLICY ${policy}) cmake_policy(SET ${policy} NEW) endif() endforeach() #----------------------------------------------------------------------------- # MITK Extension Feature #----------------------------------------------------------------------------- set(MITK_EXTENSION_DIRS "" CACHE STRING "") mark_as_advanced(MITK_EXTENSION_DIRS) #----------------------------------------------------------------------------- # Superbuild Option - Enabled by default #----------------------------------------------------------------------------- option(MITK_USE_SUPERBUILD "Build MITK and the projects it depends on via SuperBuild.cmake." ON) if(MITK_USE_SUPERBUILD) project(MITK-superbuild) set(MITK_SOURCE_DIR ${PROJECT_SOURCE_DIR}) set(MITK_BINARY_DIR ${PROJECT_BINARY_DIR}) else() project(MITK VERSION 2018.04.99) include_directories(SYSTEM ${MITK_SUPERBUILD_BINARY_DIR}) endif() #----------------------------------------------------------------------------- # Update CMake module path #----------------------------------------------------------------------------- set(MITK_CMAKE_DIR ${MITK_SOURCE_DIR}/CMake) set(CMAKE_MODULE_PATH ${MITK_CMAKE_DIR}) foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) set(MITK_CMAKE_EXTENSION_DIR ${MITK_EXTENSION_DIR}/CMake) get_filename_component(MITK_CMAKE_EXTENSION_DIR ${MITK_CMAKE_EXTENSION_DIR} ABSOLUTE) if(EXISTS ${MITK_CMAKE_EXTENSION_DIR}) list(APPEND CMAKE_MODULE_PATH ${MITK_CMAKE_EXTENSION_DIR}) endif() endforeach() #----------------------------------------------------------------------------- # CMake function(s) and macro(s) #----------------------------------------------------------------------------- # Standard CMake macros include(FeatureSummary) include(CTestUseLaunchers) include(CMakeParseArguments) include(FindPackageHandleStandardArgs) # MITK macros include(mitkFunctionGetGccVersion) include(mitkFunctionCheckCompilerFlags) include(mitkFunctionSuppressWarnings) # includes several functions include(mitkMacroEmptyExternalProject) include(mitkFunctionGenerateProjectXml) include(mitkFunctionEnableBuildConfiguration) include(mitkFunctionWhitelists) include(mitkFunctionAddExternalProject) include(mitkFunctionAddLibrarySearchPaths) SUPPRESS_VC_DEPRECATED_WARNINGS() #----------------------------------------------------------------------------- # Set a default build type if none was specified #----------------------------------------------------------------------------- if(NOT CMAKE_BUILD_TYPE AND NOT CMAKE_CONFIGURATION_TYPES) message(STATUS "Setting build type to 'Debug' as none was specified.") set(CMAKE_BUILD_TYPE Debug CACHE STRING "Choose the type of build." FORCE) # Set the possible values of build type for cmake-gui set_property(CACHE CMAKE_BUILD_TYPE PROPERTY STRINGS "Debug" "Release" "MinSizeRel" "RelWithDebInfo") endif() #----------------------------------------------------------------------------- # Check miminum macOS version #----------------------------------------------------------------------------- # The minimum supported macOS version is 10.13. If you use a version less than 10.13, there is no guarantee that the build still works. if(APPLE) exec_program(sw_vers ARGS -productVersion OUTPUT_VARIABLE macos_version) if (macos_version VERSION_LESS "10.13") message(WARNING "Detected macOS version \"${macos_version}\" is not supported anymore. Minimum required macOS version is at least 10.13.") endif() if (CMAKE_OSX_DEPLOYMENT_TARGET AND CMAKE_OSX_DEPLOYMENT_TARGET VERSION_LESS 10.13) message(WARNING "Detected macOS deployment target \"${CMAKE_OSX_DEPLOYMENT_TARGET}\" is not supported anymore. Minimum required macOS version is at least 10.13.") endif() endif() #----------------------------------------------------------------------------- # Check miminum compiler versions #----------------------------------------------------------------------------- if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU") # require at least gcc 4.9 as provided by ppa:ubuntu-toolchain-r/test for Ubuntu 14.04 if (CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.9) message(FATAL_ERROR "GCC version must be at least 4.9 If you are using Ubuntu 14.04, you can easily install gcc and g++ 4.9 (or any later version available) in addition to your version ${CMAKE_CXX_COMPILER_VERSION}: sudo add-apt-repository ppa:ubuntu-toolchain-r/test sudo apt-get update sudo apt-get install gcc-4.9 g++-4.9 Make sure to explicitly specify these compilers when configuring MITK: CMAKE_C_COMPILER:FILEPATH=/usr/bin/gcc-4.9 CMAKE_CXX_COMPILER:FILEPATH=/usr/bin/g++-4.9 For more information on the proposed PPA see the Toolchain Updates section of https://wiki.ubuntu.com/ToolChain.") endif() elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "Clang") # require at least clang 3.4 if (CMAKE_CXX_COMPILER_VERSION VERSION_LESS 3.4) message(FATAL_ERROR "Clang version must be at least 3.4") endif() elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "AppleClang") # require at least clang 5.0 if (CMAKE_CXX_COMPILER_VERSION VERSION_LESS 5.0) message(FATAL_ERROR "Apple Clang version must be at least 5.0") endif() elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC") # require at least Visual Studio 2015 if (CMAKE_CXX_COMPILER_VERSION VERSION_LESS 19.10) message(FATAL_ERROR "Microsoft Visual Studio 2017 or newer required") endif() else() message(WARNING "You are using an unsupported compiler! Compilation has only been tested with Clang (Linux or Apple), GCC and MSVC.") endif() if(CMAKE_COMPILER_IS_GNUCXX) mitkFunctionGetGccVersion(${CMAKE_CXX_COMPILER} GCC_VERSION) else() set(GCC_VERSION 0) endif() set(MITK_CXX_STANDARD 14) set(CMAKE_CXX_EXTENSIONS 0) set(CMAKE_CXX_STANDARD ${MITK_CXX_STANDARD}) set(CMAKE_CXX_STANDARD_REQUIRED 1) # This is necessary to avoid problems with compile feature checks. # CMAKE_CXX_STANDARD seems to only set the -std=c++14 flag for targets. # However, compile flag checks also need to be done with -std=c++14. # The MITK_CXX14_FLAG variable is also used for external projects # build during the MITK super-build. mitkFunctionCheckCompilerFlags("-std=c++14" MITK_CXX14_FLAG) #----------------------------------------------------------------------------- # Warn if source or build path is too long #----------------------------------------------------------------------------- if(WIN32) set(_src_dir_length_max 50) set(_bin_dir_length_max 50) if(MITK_USE_SUPERBUILD) set(_src_dir_length_max 34) # _src_dir_length_max - strlen(ep/src/ITK-build) set(_bin_dir_length_max 40) # _bin_dir_length_max - strlen(MITK-build) endif() string(LENGTH "${MITK_SOURCE_DIR}" _src_n) string(LENGTH "${MITK_BINARY_DIR}" _bin_n) # The warnings should be converted to errors if(_src_n GREATER _src_dir_length_max) message(WARNING "MITK source code directory path length is too long (${_src_n} > ${_src_dir_length_max})." "Please move the MITK source code directory to a directory with a shorter path." ) endif() if(_bin_n GREATER _bin_dir_length_max) message(WARNING "MITK build directory path length is too long (${_bin_n} > ${_bin_dir_length_max})." "Please move the MITK build directory to a directory with a shorter path." ) endif() endif() #----------------------------------------------------------------------------- # Additional MITK Options (also shown during superbuild) #----------------------------------------------------------------------------- macro(env_option name doc value) set(_value $ENV{${name}}) if("${_value}" STREQUAL "") set(_value ${value}) endif() option(${name} "${doc}" ${_value}) endmacro() # ----------------------------------------- # General build options option(BUILD_SHARED_LIBS "Build MITK with shared libraries" ON) option(WITH_COVERAGE "Enable/Disable coverage" OFF) option(BUILD_TESTING "Test the project" ON) env_option(MITK_BUILD_ALL_APPS "Build all MITK applications" OFF) env_option(MITK_BUILD_EXAMPLES "Build the MITK Examples" OFF) option(MITK_ENABLE_PIC_READER "Enable support for reading the DKFZ pic file format." ON) mark_as_advanced(MITK_BUILD_ALL_APPS MITK_ENABLE_PIC_READER ) # ----------------------------------------- # Qt version related variables env_option(MITK_USE_Qt5 "Use Qt 5 library" ON) if(MITK_USE_Qt5) set(MITK_QT5_MINIMUM_VERSION 5.11.1) set(MITK_QT5_COMPONENTS Concurrent OpenGL PrintSupport Script Sql Svg Widgets Xml XmlPatterns WebEngineWidgets UiTools Help LinguistTools) if(APPLE) list(APPEND MITK_QT5_COMPONENTS DBus) endif() # Hint at default install locations of Qt if(NOT Qt5_DIR) if(MSVC) set(_dir_candidates "C:/Qt") if(CMAKE_GENERATOR MATCHES "^Visual Studio [0-9]+ ([0-9]+)") set(_compiler "msvc${CMAKE_MATCH_1}") endif() else() set(_dir_candidates ~/Qt) if(APPLE) set(_compiler clang) else() list(APPEND _dir_candidates /opt/Qt) set(_compiler gcc) endif() endif() if(CMAKE_SIZEOF_VOID_P EQUAL 8) set(_compiler "${_compiler}_64") endif() foreach(_dir_candidate ${_dir_candidates}) get_filename_component(_dir_candidate ${_dir_candidate} REALPATH) set(_glob_expression "${_dir_candidate}/5.*/${_compiler}") file(GLOB _hints ${_glob_expression}) list(SORT _hints) list(APPEND MITK_QT5_HINTS ${_hints}) endforeach() endif() find_package(Qt5 ${MITK_QT5_MINIMUM_VERSION} COMPONENTS ${MITK_QT5_COMPONENTS} REQUIRED HINTS ${MITK_QT5_HINTS}) endif() set_property(GLOBAL PROPERTY MITK_EXTERNAL_PROJECTS "") include(CMakeExternals/ExternalProjectList.cmake) foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) set(MITK_CMAKE_EXTERNALS_EXTENSION_DIR ${MITK_EXTENSION_DIR}/CMakeExternals) get_filename_component(MITK_CMAKE_EXTERNALS_EXTENSION_DIR ${MITK_CMAKE_EXTERNALS_EXTENSION_DIR} ABSOLUTE) if(EXISTS ${MITK_CMAKE_EXTERNALS_EXTENSION_DIR}/ExternalProjectList.cmake) include(${MITK_CMAKE_EXTERNALS_EXTENSION_DIR}/ExternalProjectList.cmake) endif() endforeach() # ----------------------------------------- # Other MITK_USE_* options not related to # external projects build via the # MITK superbuild env_option(MITK_USE_BLUEBERRY "Build the BlueBerry platform" ON) env_option(MITK_USE_OpenCL "Use OpenCL GPU-Computing library" OFF) #----------------------------------------------------------------------------- # Build configurations #----------------------------------------------------------------------------- set(_buildConfigs "Custom") file(GLOB _buildConfigFiles CMake/BuildConfigurations/*.cmake) foreach(_buildConfigFile ${_buildConfigFiles}) get_filename_component(_buildConfigFile ${_buildConfigFile} NAME_WE) list(APPEND _buildConfigs ${_buildConfigFile}) endforeach() set(MITK_BUILD_CONFIGURATION "Custom" CACHE STRING "Use pre-defined MITK configurations") set_property(CACHE MITK_BUILD_CONFIGURATION PROPERTY STRINGS ${_buildConfigs}) mitkFunctionEnableBuildConfiguration() mitkFunctionCreateWhitelistPaths(MITK) mitkFunctionFindWhitelists(MITK) # ----------------------------------------- # Custom dependency logic option(MITK_USE_SYSTEM_Boost "Use the system Boost" OFF) set(MITK_USE_Boost_LIBRARIES "" CACHE STRING "A semi-colon separated list of required Boost libraries") if(MITK_USE_Python) set(MITK_USE_ZLIB ON) - find_package(PythonLibs 3 REQUIRED) - find_package(PythonInterp 3 REQUIRED) - - if ( NOT PYTHON_VERSION_STRING VERSION_EQUAL PYTHONLIBS_VERSION_STRING) - message(SEND_ERROR "Inconsistent python versions found: interpreter ${PYTHON_VERSION_STRING} vs. libs ${PYTHONLIBS_VERSION_STRING}" ) - endif() + find_package (Python3 COMPONENTS Interpreter Development) find_package(Numpy REQUIRED) endif() if(BUILD_TESTING AND NOT MITK_USE_CppUnit) message("> Forcing MITK_USE_CppUnit to ON because BUILD_TESTING=ON") set(MITK_USE_CppUnit ON CACHE BOOL "Use CppUnit for unit tests" FORCE) endif() if(MITK_USE_BLUEBERRY) option(MITK_BUILD_ALL_PLUGINS "Build all MITK plugins" OFF) mark_as_advanced(MITK_BUILD_ALL_PLUGINS) if(NOT MITK_USE_CTK) message("> Forcing MITK_USE_CTK to ON because of MITK_USE_BLUEBERRY") set(MITK_USE_CTK ON CACHE BOOL "Use CTK in MITK" FORCE) endif() endif() #----------------------------------------------------------------------------- # Pixel type multiplexing #----------------------------------------------------------------------------- # Customize the default pixel types for multiplex macros set(MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES "int, unsigned int, short, unsigned short, char, unsigned char" CACHE STRING "List of integral pixel types used in AccessByItk and InstantiateAccessFunction macros") set(MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES "double, float" CACHE STRING "List of floating pixel types used in AccessByItk and InstantiateAccessFunction macros") set(MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES "itk::RGBPixel, itk::RGBAPixel" CACHE STRING "List of composite pixel types used in AccessByItk and InstantiateAccessFunction macros") set(MITK_ACCESSBYITK_DIMENSIONS "2,3" CACHE STRING "List of dimensions used in AccessByItk and InstantiateAccessFunction macros") mark_as_advanced(MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES MITK_ACCESSBYITK_DIMENSIONS ) # consistency checks if(NOT MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES) set(MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES "int, unsigned int, short, unsigned short, char, unsigned char" CACHE STRING "List of integral pixel types used in AccessByItk and InstantiateAccessFunction macros" FORCE) endif() if(NOT MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES) set(MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES "double, float" CACHE STRING "List of floating pixel types used in AccessByItk and InstantiateAccessFunction macros" FORCE) endif() if(NOT MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES) set(MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES "itk::RGBPixel, itk::RGBAPixel" CACHE STRING "List of composite pixel types used in AccessByItk and InstantiateAccessFunction macros" FORCE) endif() if(NOT MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES) string(REPLACE "," ";" _integral_types ${MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES}) string(REPLACE "," ";" _floating_types ${MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES}) foreach(_scalar_type ${_integral_types} ${_floating_types}) set(MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES "${MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES}itk::VariableLengthVector<${_scalar_type}>,") endforeach() string(LENGTH "${MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES}" _length) math(EXPR _length "${_length} - 1") string(SUBSTRING "${MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES}" 0 ${_length} MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES) set(MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES ${MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES} CACHE STRING "List of vector pixel types used in AccessByItk and InstantiateAccessFunction macros for itk::VectorImage types" FORCE) endif() if(NOT MITK_ACCESSBYITK_DIMENSIONS) set(MITK_ACCESSBYITK_DIMENSIONS "2,3" CACHE STRING "List of dimensions used in AccessByItk and InstantiateAccessFunction macros") endif() #----------------------------------------------------------------------------- # Project.xml #----------------------------------------------------------------------------- # A list of topologically ordered targets set(CTEST_PROJECT_SUBPROJECTS) list(APPEND CTEST_PROJECT_SUBPROJECTS MITK-Core MITK-CoreUI MITK-IGT MITK-ToF MITK-DTI MITK-Modules # all modules not contained in a specific subproject MITK-Plugins # all plugins not contained in a specific subproject MITK-Examples Unlabeled # special "subproject" catching all unlabeled targets and tests ) # Configure CTestConfigSubProject.cmake that could be used by CTest scripts configure_file(${MITK_SOURCE_DIR}/CTestConfigSubProject.cmake.in ${MITK_BINARY_DIR}/CTestConfigSubProject.cmake) if(CTEST_PROJECT_ADDITIONAL_TARGETS) # those targets will be executed at the end of the ctest driver script # and they also get their own subproject label set(subproject_list "${CTEST_PROJECT_SUBPROJECTS};${CTEST_PROJECT_ADDITIONAL_TARGETS}") else() set(subproject_list "${CTEST_PROJECT_SUBPROJECTS}") endif() # Generate Project.xml file expected by the CTest driver script mitkFunctionGenerateProjectXml(${MITK_BINARY_DIR} MITK "${subproject_list}" ${MITK_USE_SUPERBUILD}) #----------------------------------------------------------------------------- # Superbuild script #----------------------------------------------------------------------------- if(MITK_USE_SUPERBUILD) include("${CMAKE_CURRENT_SOURCE_DIR}/SuperBuild.cmake") # Print configuration summary message("\n\n") feature_summary( DESCRIPTION "------- FEATURE SUMMARY FOR ${PROJECT_NAME} -------" WHAT ALL) return() endif() #***************************************************************************** #**************************** END OF SUPERBUILD **************************** #***************************************************************************** #----------------------------------------------------------------------------- # CMake function(s) and macro(s) #----------------------------------------------------------------------------- include(WriteBasicConfigVersionFile) include(CheckCXXSourceCompiles) include(GenerateExportHeader) include(mitkFunctionAddCustomModuleTest) include(mitkFunctionCheckModuleDependencies) include(mitkFunctionCompileSnippets) include(mitkFunctionConfigureVisualStudioUserProjectFile) include(mitkFunctionConvertXPSchema) include(mitkFunctionCreateBlueBerryApplication) include(mitkFunctionCreateCommandLineApp) include(mitkFunctionCreateModule) include(mitkFunctionCreatePlugin) include(mitkFunctionCreateProvisioningFile) include(mitkFunctionGetLibrarySearchPaths) include(mitkFunctionGetVersion) include(mitkFunctionGetVersionDescription) include(mitkFunctionInstallAutoLoadModules) include(mitkFunctionInstallCTKPlugin) include(mitkFunctionInstallProvisioningFiles) include(mitkFunctionInstallThirdPartyCTKPlugins) include(mitkFunctionOrganizeSources) include(mitkFunctionTestPlugin) include(mitkFunctionUseModules) if( ${MITK_USE_MatchPoint} ) include(mitkFunctionCreateMatchPointDeployedAlgorithm) endif() include(mitkMacroConfigureItkPixelTypes) include(mitkMacroCreateExecutable) include(mitkMacroCreateModuleTests) include(mitkMacroGenerateToolsLibrary) include(mitkMacroGetLinuxDistribution) include(mitkMacroGetPMDPlatformString) include(mitkMacroInstall) include(mitkMacroInstallHelperApp) include(mitkMacroInstallTargets) include(mitkMacroMultiplexPicType) # Deprecated include(mitkMacroCreateCTKPlugin) #----------------------------------------------------------------------------- # Global CMake variables #----------------------------------------------------------------------------- # Required and enabled C++14 features for all MITK code. # These are added as PUBLIC compile features to all MITK modules. set(MITK_CXX_FEATURES cxx_auto_type cxx_decltype cxx_enum_forward_declarations cxx_extended_friend_declarations cxx_extern_templates cxx_final cxx_lambdas cxx_local_type_template_args cxx_long_long_type cxx_nullptr cxx_override cxx_range_for cxx_right_angle_brackets cxx_rvalue_references cxx_static_assert cxx_strong_enums cxx_template_template_parameters cxx_trailing_return_types cxx_variadic_macros ) if(NOT DEFINED CMAKE_DEBUG_POSTFIX) # We can't do this yet because the CTK Plugin Framework # cannot cope with a postfix yet. #set(CMAKE_DEBUG_POSTFIX d) endif() #----------------------------------------------------------------------------- # Output directories. #----------------------------------------------------------------------------- set(_default_LIBRARY_output_dir lib) set(_default_RUNTIME_output_dir bin) set(_default_ARCHIVE_output_dir lib) foreach(type LIBRARY RUNTIME ARCHIVE) # Make sure the directory exists if(MITK_CMAKE_${type}_OUTPUT_DIRECTORY AND NOT EXISTS ${MITK_CMAKE_${type}_OUTPUT_DIRECTORY}) message("Creating directory MITK_CMAKE_${type}_OUTPUT_DIRECTORY: ${MITK_CMAKE_${type}_OUTPUT_DIRECTORY}") file(MAKE_DIRECTORY "${MITK_CMAKE_${type}_OUTPUT_DIRECTORY}") endif() if(MITK_CMAKE_${type}_OUTPUT_DIRECTORY) set(CMAKE_${type}_OUTPUT_DIRECTORY ${MITK_CMAKE_${type}_OUTPUT_DIRECTORY}) else() set(CMAKE_${type}_OUTPUT_DIRECTORY ${PROJECT_BINARY_DIR}/${_default_${type}_output_dir}) set(MITK_CMAKE_${type}_OUTPUT_DIRECTORY ${CMAKE_${type}_OUTPUT_DIRECTORY}) endif() set(CMAKE_${type}_OUTPUT_DIRECTORY ${CMAKE_${type}_OUTPUT_DIRECTORY} CACHE INTERNAL "Output directory for ${type} files.") mark_as_advanced(CMAKE_${type}_OUTPUT_DIRECTORY) endforeach() #----------------------------------------------------------------------------- # Set MITK specific options and variables (NOT available during superbuild) #----------------------------------------------------------------------------- # Look for optional Doxygen package find_package(Doxygen) option(BLUEBERRY_DEBUG_SMARTPOINTER "Enable code for debugging smart pointers" OFF) mark_as_advanced(BLUEBERRY_DEBUG_SMARTPOINTER) # ASK THE USER TO SHOW THE CONSOLE WINDOW FOR CoreApp and mitkWorkbench option(MITK_SHOW_CONSOLE_WINDOW "Use this to enable or disable the console window when starting MITK GUI Applications" ON) mark_as_advanced(MITK_SHOW_CONSOLE_WINDOW) # TODO: check if necessary option(USE_ITKZLIB "Use the ITK zlib for pic compression." ON) mark_as_advanced(USE_ITKZLIB) if(NOT MITK_FAST_TESTING) if(DEFINED MITK_CTEST_SCRIPT_MODE AND (MITK_CTEST_SCRIPT_MODE STREQUAL "continuous" OR MITK_CTEST_SCRIPT_MODE STREQUAL "experimental") ) set(MITK_FAST_TESTING 1) endif() endif() if(NOT UNIX) set(MITK_WIN32_FORCE_STATIC "STATIC" CACHE INTERNAL "Use this variable to always build static libraries on non-unix platforms") endif() if(MITK_BUILD_ALL_PLUGINS) set(MITK_BUILD_ALL_PLUGINS_OPTION "FORCE_BUILD_ALL") endif() # Configure pixel types used for ITK image access multiplexing mitkMacroConfigureItkPixelTypes() # Configure module naming conventions set(MITK_MODULE_NAME_REGEX_MATCH "^[A-Z].*$") set(MITK_MODULE_NAME_REGEX_NOT_MATCH "^[Mm][Ii][Tt][Kk].*$") set(MITK_DEFAULT_MODULE_NAME_PREFIX "Mitk") set(MITK_MODULE_NAME_PREFIX ${MITK_DEFAULT_MODULE_NAME_PREFIX}) set(MITK_MODULE_NAME_DEFAULTS_TO_DIRECTORY_NAME 1) #----------------------------------------------------------------------------- # Get MITK version info #----------------------------------------------------------------------------- mitkFunctionGetVersion(${MITK_SOURCE_DIR} MITK) mitkFunctionGetVersionDescription(${MITK_SOURCE_DIR} MITK) # MITK_VERSION set(MITK_VERSION_STRING "${MITK_VERSION_MAJOR}.${MITK_VERSION_MINOR}.${MITK_VERSION_PATCH}") if(MITK_VERSION_PATCH STREQUAL "99") set(MITK_VERSION_STRING "${MITK_VERSION_STRING}-${MITK_REVISION_SHORTID}") endif() #----------------------------------------------------------------------------- # Installation preparation # # These should be set before any MITK install macros are used #----------------------------------------------------------------------------- # on macOS all BlueBerry plugins get copied into every # application bundle (.app directory) specified here if(MITK_USE_BLUEBERRY AND APPLE) include("${CMAKE_CURRENT_SOURCE_DIR}/Applications/AppList.cmake") foreach(mitk_app ${MITK_APPS}) # extract option_name string(REPLACE "^^" "\\;" target_info ${mitk_app}) set(target_info_list ${target_info}) list(GET target_info_list 1 option_name) list(GET target_info_list 0 app_name) # check if the application is enabled if(${option_name} OR MITK_BUILD_ALL_APPS) set(MACOSX_BUNDLE_NAMES ${MACOSX_BUNDLE_NAMES} Mitk${app_name}) endif() endforeach() endif() #----------------------------------------------------------------------------- # Set coverage Flags #----------------------------------------------------------------------------- if(WITH_COVERAGE) if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU") set(coverage_flags "-g -fprofile-arcs -ftest-coverage -O0 -DNDEBUG") set(COVERAGE_CXX_FLAGS ${coverage_flags}) set(COVERAGE_C_FLAGS ${coverage_flags}) endif() endif() #----------------------------------------------------------------------------- # MITK C/CXX Flags #----------------------------------------------------------------------------- set(MITK_C_FLAGS "${COVERAGE_C_FLAGS}") set(MITK_C_FLAGS_DEBUG ) set(MITK_C_FLAGS_RELEASE ) set(MITK_CXX_FLAGS "${COVERAGE_CXX_FLAGS} ${MITK_CXX14_FLAG}") set(MITK_CXX_FLAGS_DEBUG ) set(MITK_CXX_FLAGS_RELEASE ) set(MITK_EXE_LINKER_FLAGS ) set(MITK_SHARED_LINKER_FLAGS ) find_package(OpenMP) if (OPENMP_FOUND) set(MITK_C_FLAGS "${MITK_C_FLAGS} ${OpenMP_C_FLAGS}") set(MITK_CXX_FLAGS "${MITK_CXX_FLAGS} ${OpenMP_CXX_FLAGS}") endif() if(WIN32) set(MITK_CXX_FLAGS "${MITK_CXX_FLAGS} -D_WIN32_WINNT=0x0501 -DPOCO_NO_UNWINDOWS -DWIN32_LEAN_AND_MEAN -DNOMINMAX") mitkFunctionCheckCompilerFlags("/wd4005" MITK_CXX_FLAGS) # warning C4005: macro redefinition mitkFunctionCheckCompilerFlags("/wd4231" MITK_CXX_FLAGS) # warning C4231: nonstandard extension used : 'extern' before template explicit instantiation # the following line should be removed after fixing bug 17637 mitkFunctionCheckCompilerFlags("/wd4316" MITK_CXX_FLAGS) # warning C4316: object alignment on heap mitkFunctionCheckCompilerFlags("/wd4180" MITK_CXX_FLAGS) # warning C4180: qualifier applied to function type has no meaning endif() if(APPLE) set(MITK_CXX_FLAGS "${MITK_CXX_FLAGS} -DGL_SILENCE_DEPRECATION") # Apple deprecated OpenGL in macOS 10.14 endif() if(NOT MSVC_VERSION) foreach(_flag -Wall -Wextra -Wpointer-arith -Winvalid-pch -Wcast-align -Wwrite-strings -Wno-error=gnu -Wno-error=unknown-pragmas # The strict-overflow warning is generated by ITK template code -Wno-error=strict-overflow -Woverloaded-virtual -Wstrict-null-sentinel #-Wold-style-cast #-Wsign-promo -Wno-array-bounds -fdiagnostics-show-option ) mitkFunctionCheckCAndCXXCompilerFlags(${_flag} MITK_C_FLAGS MITK_CXX_FLAGS) endforeach() endif() if(CMAKE_COMPILER_IS_GNUCXX AND NOT APPLE) mitkFunctionCheckCompilerFlags("-Wl,--no-undefined" MITK_SHARED_LINKER_FLAGS) mitkFunctionCheckCompilerFlags("-Wl,--as-needed" MITK_SHARED_LINKER_FLAGS) endif() if(CMAKE_COMPILER_IS_GNUCXX) mitkFunctionCheckCAndCXXCompilerFlags("-fstack-protector-all" MITK_C_FLAGS MITK_CXX_FLAGS) set(MITK_CXX_FLAGS_RELEASE "-U_FORTIFY_SOURCES -D_FORTIFY_SOURCE=2 ${MITK_CXX_FLAGS_RELEASE}") endif() set(MITK_MODULE_LINKER_FLAGS ${MITK_SHARED_LINKER_FLAGS}) set(MITK_EXE_LINKER_FLAGS ${MITK_SHARED_LINKER_FLAGS}) #----------------------------------------------------------------------------- # MITK Packages #----------------------------------------------------------------------------- set(MITK_MODULES_PACKAGE_DEPENDS_DIR ${MITK_SOURCE_DIR}/CMake/PackageDepends) set(MODULES_PACKAGE_DEPENDS_DIRS ${MITK_MODULES_PACKAGE_DEPENDS_DIR}) foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) set(MITK_PACKAGE_DEPENDS_EXTENSION_DIR ${MITK_EXTENSION_DIR}/CMake/PackageDepends) get_filename_component(MITK_PACKAGE_DEPENDS_EXTENSION_DIR ${MITK_PACKAGE_DEPENDS_EXTENSION_DIR} ABSOLUTE) if(EXISTS ${MITK_PACKAGE_DEPENDS_EXTENSION_DIR}) list(APPEND MODULES_PACKAGE_DEPENDS_DIRS ${MITK_PACKAGE_DEPENDS_EXTENSION_DIR}) endif() endforeach() if(NOT MITK_USE_SYSTEM_Boost) set(Boost_NO_SYSTEM_PATHS 1) endif() set(Boost_USE_MULTITHREADED 1) set(Boost_USE_STATIC_LIBS 0) set(Boost_USE_STATIC_RUNTIME 0) set(Boost_ADDITIONAL_VERSIONS 1.68 1.68.0) # We need this later for a DCMTK workaround set(_dcmtk_dir_orig ${DCMTK_DIR}) # This property is populated at the top half of this file get_property(MITK_EXTERNAL_PROJECTS GLOBAL PROPERTY MITK_EXTERNAL_PROJECTS) foreach(ep ${MITK_EXTERNAL_PROJECTS}) get_property(_package GLOBAL PROPERTY MITK_${ep}_PACKAGE) get_property(_components GLOBAL PROPERTY MITK_${ep}_COMPONENTS) if(MITK_USE_${ep} AND _package) if(_components) find_package(${_package} COMPONENTS ${_components} REQUIRED CONFIG) else() # Prefer config mode first because it finds external # Config.cmake files pointed at by _DIR variables. # Otherwise, existing Find.cmake files could fail. if(DEFINED ${_package}_DIR) #we store the information because it will be overwritten by find_package #and would get lost for all EPs that use on Find.cmake instead of config #files. set(_temp_EP_${_package}_dir ${${_package}_DIR}) endif(DEFINED ${_package}_DIR) find_package(${_package} QUIET CONFIG) string(TOUPPER "${_package}" _package_uc) if(NOT (${_package}_FOUND OR ${_package_uc}_FOUND)) if(DEFINED _temp_EP_${_package}_dir) set(${_package}_DIR ${_temp_EP_${_package}_dir} CACHE PATH "externaly set dir of the package ${_package}" FORCE) endif(DEFINED _temp_EP_${_package}_dir) find_package(${_package} REQUIRED) endif() endif() endif() endforeach() # Ensure that the MITK CMake module path comes first set(CMAKE_MODULE_PATH ${MITK_CMAKE_DIR} ${CMAKE_MODULE_PATH} ) if(MITK_USE_DCMTK) # Due to the preferred CONFIG mode in find_package calls above, # the DCMTKConfig.cmake file is read, which does not provide useful # package information. We explictly need MODULE mode to find DCMTK. if(${_dcmtk_dir_orig} MATCHES "${MITK_EXTERNAL_PROJECT_PREFIX}.*") # Help our FindDCMTK.cmake script find our super-build DCMTK set(DCMTK_DIR ${MITK_EXTERNAL_PROJECT_PREFIX}) else() # Use the original value set(DCMTK_DIR ${_dcmtk_dir_orig}) endif() find_package(DCMTK REQUIRED MODULE) endif() if(MITK_USE_DCMQI) # Due to the preferred CONFIG mode in find_package calls above, # the DCMQIConfig.cmake file is read, which does not provide useful # package information. We explictly need MODULE mode to find DCMQI. # Help our FindDCMQI.cmake script find our super-build DCMQI set(DCMQI_DIR ${MITK_EXTERNAL_PROJECT_PREFIX}) find_package(DCMQI REQUIRED) endif() link_directories(${Boost_LIBRARY_DIRS}) if(MITK_USE_OpenIGTLink) link_directories(${OpenIGTLink_LIBRARY_DIRS}) endif() if(MITK_USE_OpenCL) find_package(OpenCL REQUIRED) endif() # Qt support if(MITK_USE_Qt5) find_package(Qt5Core ${MITK_QT5_MINIMUM_VERSION} REQUIRED) # at least Core required get_target_property(_qmake_exec Qt5::qmake LOCATION) execute_process(COMMAND ${_qmake_exec} -query QT_INSTALL_BINS RESULT_VARIABLE _result OUTPUT_VARIABLE QT_BINARY_DIR ERROR_VARIABLE _error ) string(STRIP "${QT_BINARY_DIR}" QT_BINARY_DIR) if(_result OR NOT EXISTS "${QT_BINARY_DIR}") message(FATAL_ERROR "Could not determine Qt binary directory: ${_result} ${QT_BINARY_DIR} ${_error}") endif() find_program(QT_HELPGENERATOR_EXECUTABLE NAMES qhelpgenerator qhelpgenerator-qt5 qhelpgenerator5 PATHS ${QT_BINARY_DIR} NO_DEFAULT_PATH ) find_program(QT_COLLECTIONGENERATOR_EXECUTABLE NAMES qcollectiongenerator qcollectiongenerator-qt5 qcollectiongenerator5 PATHS ${QT_BINARY_DIR} NO_DEFAULT_PATH ) find_program(QT_ASSISTANT_EXECUTABLE NAMES assistant assistant-qt5 assistant5 PATHS ${QT_BINARY_DIR} NO_DEFAULT_PATH ) find_program(QT_XMLPATTERNS_EXECUTABLE NAMES xmlpatterns PATHS ${QT_BINARY_DIR} NO_DEFAULT_PATH ) mark_as_advanced(QT_HELPGENERATOR_EXECUTABLE QT_COLLECTIONGENERATOR_EXECUTABLE QT_ASSISTANT_EXECUTABLE QT_XMLPATTERNS_EXECUTABLE ) if(MITK_USE_BLUEBERRY) option(BLUEBERRY_USE_QT_HELP "Enable support for integrating plugin documentation into Qt Help" ${DOXYGEN_FOUND}) mark_as_advanced(BLUEBERRY_USE_QT_HELP) # Sanity checks for in-application BlueBerry plug-in help generation if(BLUEBERRY_USE_QT_HELP) set(_force_blueberry_use_qt_help_to_off 0) if(NOT DOXYGEN_FOUND) message("> Forcing BLUEBERRY_USE_QT_HELP to OFF because Doxygen was not found.") set(_force_blueberry_use_qt_help_to_off 1) endif() if(DOXYGEN_FOUND AND DOXYGEN_VERSION VERSION_LESS 1.8.7) message("> Forcing BLUEBERRY_USE_QT_HELP to OFF because Doxygen version 1.8.7 or newer not found.") set(_force_blueberry_use_qt_help_to_off 1) endif() if(NOT QT_HELPGENERATOR_EXECUTABLE) message("> Forcing BLUEBERRY_USE_QT_HELP to OFF because QT_HELPGENERATOR_EXECUTABLE is empty.") set(_force_blueberry_use_qt_help_to_off 1) endif() if(NOT MITK_USE_Qt5) message("> Forcing BLUEBERRY_USE_QT_HELP to OFF because MITK_USE_Qt5 is OFF.") set(_force_blueberry_use_qt_help_to_off 1) endif() if(NOT QT_XMLPATTERNS_EXECUTABLE) message("You have enabled Qt Help support, but QT_XMLPATTERNS_EXECUTABLE is empty") set(_force_blueberry_use_qt_help_to_off 1) endif() if(_force_blueberry_use_qt_help_to_off) set(BLUEBERRY_USE_QT_HELP OFF CACHE BOOL "Enable support for integrating plugin documentation into Qt Help" FORCE) endif() endif() if(BLUEBERRY_QT_HELP_REQUIRED AND NOT BLUEBERRY_USE_QT_HELP) message(FATAL_ERROR "BLUEBERRY_USE_QT_HELP is required to be set to ON") endif() endif() endif() #----------------------------------------------------------------------------- # Testing #----------------------------------------------------------------------------- if(BUILD_TESTING) enable_testing() include(CTest) mark_as_advanced(TCL_TCLSH DART_ROOT) option(MITK_ENABLE_RENDERING_TESTING OFF "Enable the MITK rendering tests. Requires x-server in Linux.") #Rendering testing does not work for Linux nightlies, thus it is disabled per default #and activated for Mac and Windows. if(WIN32 OR APPLE) set(MITK_ENABLE_RENDERING_TESTING ON) endif() mark_as_advanced( MITK_ENABLE_RENDERING_TESTING ) # Setup file for setting custom ctest vars configure_file( CMake/CTestCustom.cmake.in ${MITK_BINARY_DIR}/CTestCustom.cmake @ONLY ) # Initial cache for ProjectTemplate and PluginGenerator tests configure_file( CMake/mitkTestInitialCache.txt.in ${MITK_BINARY_DIR}/mitkTestInitialCache.txt @ONLY ) # Configuration for the CMake-generated test driver set(CMAKE_TESTDRIVER_EXTRA_INCLUDES "#include ") set(CMAKE_TESTDRIVER_BEFORE_TESTMAIN " try {") set(CMAKE_TESTDRIVER_AFTER_TESTMAIN " } catch( std::exception & excp ) { fprintf(stderr,\"%s\\n\",excp.what()); return EXIT_FAILURE; } catch( ... ) { printf(\"Exception caught in the test driver\\n\"); return EXIT_FAILURE; } ") set(MITK_TEST_OUTPUT_DIR "${MITK_BINARY_DIR}/test_output") if(NOT EXISTS ${MITK_TEST_OUTPUT_DIR}) file(MAKE_DIRECTORY ${MITK_TEST_OUTPUT_DIR}) endif() # Test the external project template if(MITK_USE_BLUEBERRY) include(mitkTestProjectTemplate) endif() # Test the package target include(mitkPackageTest) endif() configure_file(mitkTestingConfig.h.in ${MITK_BINARY_DIR}/mitkTestingConfig.h) #----------------------------------------------------------------------------- # MITK_SUPERBUILD_BINARY_DIR #----------------------------------------------------------------------------- # If MITK_SUPERBUILD_BINARY_DIR isn't defined, it means MITK is *NOT* build using Superbuild. # In that specific case, MITK_SUPERBUILD_BINARY_DIR should default to MITK_BINARY_DIR if(NOT DEFINED MITK_SUPERBUILD_BINARY_DIR) set(MITK_SUPERBUILD_BINARY_DIR ${MITK_BINARY_DIR}) endif() #----------------------------------------------------------------------------- # Set C/CXX and linker flags for MITK code #----------------------------------------------------------------------------- set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${MITK_CXX_FLAGS}") set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} ${MITK_CXX_FLAGS_DEBUG}") set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} ${MITK_CXX_FLAGS_RELEASE}") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${MITK_C_FLAGS}") set(CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} ${MITK_C_FLAGS_DEBUG}") set(CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} ${MITK_C_FLAGS_RELEASE}") set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} ${MITK_EXE_LINKER_FLAGS}") set(CMAKE_SHARED_LINKER_FLAGS "${CMAKE_SHARED_LINKER_FLAGS} ${MITK_SHARED_LINKER_FLAGS}") set(CMAKE_MODULE_LINKER_FLAGS "${CMAKE_MODULE_LINKER_FLAGS} ${MITK_MODULE_LINKER_FLAGS}") #----------------------------------------------------------------------------- # Add custom targets representing CDash subprojects #----------------------------------------------------------------------------- foreach(subproject ${CTEST_PROJECT_SUBPROJECTS}) if(NOT TARGET ${subproject} AND NOT subproject MATCHES "Unlabeled") add_custom_target(${subproject}) endif() endforeach() #----------------------------------------------------------------------------- # Add subdirectories #----------------------------------------------------------------------------- add_subdirectory(Utilities) add_subdirectory(Modules) include("${CMAKE_CURRENT_SOURCE_DIR}/Modules/ModuleList.cmake") mitkFunctionWhitelistModules(MITK MITK_MODULES) foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) set(MITK_MODULES_EXTENSION_DIR ${MITK_EXTENSION_DIR}/Modules) get_filename_component(MITK_MODULES_EXTENSION_DIR ${MITK_MODULES_EXTENSION_DIR} ABSOLUTE) if(EXISTS ${MITK_MODULES_EXTENSION_DIR}/ModuleList.cmake) set(MITK_MODULES "") include(${MITK_MODULES_EXTENSION_DIR}/ModuleList.cmake) foreach(mitk_module ${MITK_MODULES}) add_subdirectory(${MITK_MODULES_EXTENSION_DIR}/${mitk_module} Modules/${mitk_module}) endforeach() endif() set(MITK_MODULE_NAME_PREFIX ${MITK_DEFAULT_MODULE_NAME_PREFIX}) endforeach() add_subdirectory(Wrapping) if(MITK_USE_BLUEBERRY) set(BLUEBERRY_XPDOC_OUTPUT_DIR ${MITK_DOXYGEN_OUTPUT_DIR}/html/extension-points/html/) # Plug-in testing (needs some work to be enabled again) if(BUILD_TESTING) set(BLUEBERRY_UI_TEST_APP "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/CoreApp") if(TARGET CoreApp) get_target_property(_is_macosx_bundle CoreApp MACOSX_BUNDLE) if(APPLE AND _is_macosx_bundle) set(BLUEBERRY_UI_TEST_APP "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/CoreApp.app/Contents/MacOS/CoreApp") endif() endif() set(BLUEBERRY_TEST_APP_ID "org.mitk.qt.coreapplication") endif() include("${CMAKE_CURRENT_SOURCE_DIR}/Plugins/PluginList.cmake") mitkFunctionWhitelistPlugins(MITK MITK_PLUGINS) set(mitk_plugins_fullpath "") foreach(mitk_plugin ${MITK_PLUGINS}) list(APPEND mitk_plugins_fullpath Plugins/${mitk_plugin}) endforeach() set(MITK_PLUGIN_REGEX_LIST "") foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) set(MITK_PLUGINS_EXTENSION_DIR ${MITK_EXTENSION_DIR}/Plugins) get_filename_component(MITK_PLUGINS_EXTENSION_DIR ${MITK_PLUGINS_EXTENSION_DIR} ABSOLUTE) if(EXISTS ${MITK_PLUGINS_EXTENSION_DIR}/PluginList.cmake) set(MITK_PLUGINS "") include(${MITK_PLUGINS_EXTENSION_DIR}/PluginList.cmake) foreach(mitk_plugin ${MITK_PLUGINS}) list(APPEND mitk_plugins_fullpath ${MITK_PLUGINS_EXTENSION_DIR}/${mitk_plugin}) endforeach() endif() endforeach() if(EXISTS ${MITK_PRIVATE_MODULES}/PluginList.cmake) include(${MITK_PRIVATE_MODULES}/PluginList.cmake) foreach(mitk_plugin ${MITK_PRIVATE_PLUGINS}) list(APPEND mitk_plugins_fullpath ${MITK_PRIVATE_MODULES}/${mitk_plugin}) endforeach() endif() if(MITK_BUILD_EXAMPLES) include("${CMAKE_CURRENT_SOURCE_DIR}/Examples/Plugins/PluginList.cmake") set(mitk_example_plugins_fullpath ) foreach(mitk_example_plugin ${MITK_EXAMPLE_PLUGINS}) list(APPEND mitk_example_plugins_fullpath Examples/Plugins/${mitk_example_plugin}) list(APPEND mitk_plugins_fullpath Examples/Plugins/${mitk_example_plugin}) endforeach() endif() # Specify which plug-ins belong to this project macro(GetMyTargetLibraries all_target_libraries varname) set(re_ctkplugin_mitk "^org_mitk_[a-zA-Z0-9_]+$") set(re_ctkplugin_bb "^org_blueberry_[a-zA-Z0-9_]+$") set(_tmp_list) list(APPEND _tmp_list ${all_target_libraries}) ctkMacroListFilter(_tmp_list re_ctkplugin_mitk re_ctkplugin_bb MITK_PLUGIN_REGEX_LIST OUTPUT_VARIABLE ${varname}) endmacro() # Get infos about application directories and build options include("${CMAKE_CURRENT_SOURCE_DIR}/Applications/AppList.cmake") set(mitk_apps_fullpath ) foreach(mitk_app ${MITK_APPS}) # extract option_name string(REPLACE "^^" "\\;" target_info ${mitk_app}) set(target_info_list ${target_info}) list(GET target_info_list 0 directory_name) list(GET target_info_list 1 option_name) if(${option_name}) list(APPEND mitk_apps_fullpath "${CMAKE_CURRENT_SOURCE_DIR}/Applications/${directory_name}^^${option_name}") endif() endforeach() if (mitk_plugins_fullpath) ctkMacroSetupPlugins(${mitk_plugins_fullpath} BUILD_OPTION_PREFIX MITK_BUILD_ APPS ${mitk_apps_fullpath} BUILD_ALL ${MITK_BUILD_ALL_PLUGINS} COMPACT_OPTIONS) endif() set(MITK_PLUGIN_USE_FILE "${MITK_BINARY_DIR}/MitkPluginUseFile.cmake") if(${PROJECT_NAME}_PLUGIN_LIBRARIES) ctkFunctionGeneratePluginUseFile(${MITK_PLUGIN_USE_FILE}) else() file(REMOVE ${MITK_PLUGIN_USE_FILE}) set(MITK_PLUGIN_USE_FILE ) endif() endif() #----------------------------------------------------------------------------- # Documentation #----------------------------------------------------------------------------- if(DOXYGEN_FOUND) add_subdirectory(Documentation) endif() #----------------------------------------------------------------------------- # Installation #----------------------------------------------------------------------------- # set MITK cpack variables # These are the default variables, which can be overwritten ( see below ) include(mitkSetupCPack) set(use_default_config ON) # MITK_APPS is set in Applications/AppList.cmake (included somewhere above # if MITK_USE_BLUEBERRY is set to ON). if(MITK_APPS) set(activated_apps_no 0) list(LENGTH MITK_APPS app_count) # Check how many apps have been enabled # If more than one app has been activated, the we use the # default CPack configuration. Otherwise that apps configuration # will be used, if present. foreach(mitk_app ${MITK_APPS}) # extract option_name string(REPLACE "^^" "\\;" target_info ${mitk_app}) set(target_info_list ${target_info}) list(GET target_info_list 1 option_name) # check if the application is enabled if(${option_name} OR MITK_BUILD_ALL_APPS) MATH(EXPR activated_apps_no "${activated_apps_no} + 1") endif() endforeach() if(app_count EQUAL 1 AND (activated_apps_no EQUAL 1 OR MITK_BUILD_ALL_APPS)) # Corner case if there is only one app in total set(use_project_cpack ON) elseif(activated_apps_no EQUAL 1 AND NOT MITK_BUILD_ALL_APPS) # Only one app is enabled (no "build all" flag set) set(use_project_cpack ON) else() # Less or more then one app is enabled set(use_project_cpack OFF) endif() foreach(mitk_app ${MITK_APPS}) # extract target_dir and option_name string(REPLACE "^^" "\\;" target_info ${mitk_app}) set(target_info_list ${target_info}) list(GET target_info_list 0 target_dir) list(GET target_info_list 1 option_name) list(GET target_info_list 2 executable_name) # check if the application is enabled if(${option_name} OR MITK_BUILD_ALL_APPS) # check whether application specific configuration files will be used if(use_project_cpack) # use files if they exist if(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/Applications/${target_dir}/CPackOptions.cmake") include("${CMAKE_CURRENT_SOURCE_DIR}/Applications/${target_dir}/CPackOptions.cmake") endif() if(EXISTS "${PROJECT_SOURCE_DIR}/Applications/${target_dir}/CPackConfig.cmake.in") set(CPACK_PROJECT_CONFIG_FILE "${PROJECT_BINARY_DIR}/Applications/${target_dir}/CPackConfig.cmake") configure_file(${PROJECT_SOURCE_DIR}/Applications/${target_dir}/CPackConfig.cmake.in ${CPACK_PROJECT_CONFIG_FILE} @ONLY) set(use_default_config OFF) endif() endif() # add link to the list list(APPEND CPACK_CREATE_DESKTOP_LINKS "${executable_name}") endif() endforeach() endif() # if no application specific configuration file was used, use default if(use_default_config) configure_file(${MITK_SOURCE_DIR}/MITKCPackOptions.cmake.in ${MITK_BINARY_DIR}/MITKCPackOptions.cmake @ONLY) set(CPACK_PROJECT_CONFIG_FILE "${MITK_BINARY_DIR}/MITKCPackOptions.cmake") endif() # include CPack model once all variables are set include(CPack) # Additional installation rules include(mitkInstallRules) #----------------------------------------------------------------------------- # Last configuration steps #----------------------------------------------------------------------------- # ---------------- Export targets ----------------- set(MITK_EXPORTS_FILE "${MITK_BINARY_DIR}/MitkExports.cmake") file(REMOVE ${MITK_EXPORTS_FILE}) set(targets_to_export) get_property(module_targets GLOBAL PROPERTY MITK_MODULE_TARGETS) if(module_targets) list(APPEND targets_to_export ${module_targets}) endif() if(MITK_USE_BLUEBERRY) if(MITK_PLUGIN_LIBRARIES) list(APPEND targets_to_export ${MITK_PLUGIN_LIBRARIES}) endif() endif() export(TARGETS ${targets_to_export} APPEND FILE ${MITK_EXPORTS_FILE}) set(MITK_EXPORTED_TARGET_PROPERTIES ) foreach(target_to_export ${targets_to_export}) get_target_property(autoload_targets ${target_to_export} MITK_AUTOLOAD_TARGETS) if(autoload_targets) set(MITK_EXPORTED_TARGET_PROPERTIES "${MITK_EXPORTED_TARGET_PROPERTIES} set_target_properties(${target_to_export} PROPERTIES MITK_AUTOLOAD_TARGETS \"${autoload_targets}\")") endif() get_target_property(autoload_dir ${target_to_export} MITK_AUTOLOAD_DIRECTORY) if(autoload_dir) set(MITK_EXPORTED_TARGET_PROPERTIES "${MITK_EXPORTED_TARGET_PROPERTIES} set_target_properties(${target_to_export} PROPERTIES MITK_AUTOLOAD_DIRECTORY \"${autoload_dir}\")") endif() get_target_property(deprecated_module ${target_to_export} MITK_MODULE_DEPRECATED_SINCE) if(deprecated_module) set(MITK_EXPORTED_TARGET_PROPERTIES "${MITK_EXPORTED_TARGET_PROPERTIES} set_target_properties(${target_to_export} PROPERTIES MITK_MODULE_DEPRECATED_SINCE \"${deprecated_module}\")") endif() endforeach() # ---------------- External projects ----------------- get_property(MITK_ADDITIONAL_LIBRARY_SEARCH_PATHS_CONFIG GLOBAL PROPERTY MITK_ADDITIONAL_LIBRARY_SEARCH_PATHS) set(MITK_CONFIG_EXTERNAL_PROJECTS ) #string(REPLACE "^^" ";" _mitk_external_projects ${MITK_EXTERNAL_PROJECTS}) foreach(ep ${MITK_EXTERNAL_PROJECTS}) get_property(_components GLOBAL PROPERTY MITK_${ep}_COMPONENTS) set(MITK_CONFIG_EXTERNAL_PROJECTS "${MITK_CONFIG_EXTERNAL_PROJECTS} set(MITK_USE_${ep} ${MITK_USE_${ep}}) set(MITK_${ep}_DIR \"${${ep}_DIR}\") set(MITK_${ep}_COMPONENTS ${_components}) ") endforeach() foreach(ep ${MITK_EXTERNAL_PROJECTS}) get_property(_package GLOBAL PROPERTY MITK_${ep}_PACKAGE) get_property(_components GLOBAL PROPERTY MITK_${ep}_COMPONENTS) if(_components) set(_components_arg COMPONENTS \${_components}) else() set(_components_arg) endif() if(_package) set(MITK_CONFIG_EXTERNAL_PROJECTS "${MITK_CONFIG_EXTERNAL_PROJECTS} if(MITK_USE_${ep}) set(${ep}_DIR \${MITK_${ep}_DIR}) if(MITK_${ep}_COMPONENTS) mitkMacroFindDependency(${_package} COMPONENTS \${MITK_${ep}_COMPONENTS}) else() mitkMacroFindDependency(${_package}) endif() endif()") endif() endforeach() # ---------------- Tools ----------------- configure_file(${MITK_SOURCE_DIR}/CMake/ToolExtensionITKFactory.cpp.in ${MITK_BINARY_DIR}/ToolExtensionITKFactory.cpp.in COPYONLY) configure_file(${MITK_SOURCE_DIR}/CMake/ToolExtensionITKFactoryLoader.cpp.in ${MITK_BINARY_DIR}/ToolExtensionITKFactoryLoader.cpp.in COPYONLY) configure_file(${MITK_SOURCE_DIR}/CMake/ToolGUIExtensionITKFactory.cpp.in ${MITK_BINARY_DIR}/ToolGUIExtensionITKFactory.cpp.in COPYONLY) # ---------------- Configure files ----------------- configure_file(mitkVersion.h.in ${MITK_BINARY_DIR}/mitkVersion.h) configure_file(mitkConfig.h.in ${MITK_BINARY_DIR}/mitkConfig.h) set(IPFUNC_INCLUDE_DIR ${CMAKE_CURRENT_SOURCE_DIR}/Utilities/ipFunc) set(UTILITIES_DIR ${CMAKE_CURRENT_SOURCE_DIR}/Utilities) configure_file(mitkConfig.h.in ${MITK_BINARY_DIR}/mitkConfig.h) configure_file(MITKConfig.cmake.in ${MITK_BINARY_DIR}/MITKConfig.cmake @ONLY) write_basic_config_version_file(${CMAKE_CURRENT_BINARY_DIR}/${PROJECT_NAME}ConfigVersion.cmake VERSION ${MITK_VERSION_STRING} COMPATIBILITY AnyNewerVersion) #----------------------------------------------------------------------------- # MITK Applications #----------------------------------------------------------------------------- # This must come after MITKConfig.h was generated, since applications # might do a find_package(MITK REQUIRED). add_subdirectory(Applications) if(MSVC AND TARGET MitkWorkbench) set_directory_properties(PROPERTIES VS_STARTUP_PROJECT MitkWorkbench) endif() #----------------------------------------------------------------------------- # MITK Examples #----------------------------------------------------------------------------- if(MITK_BUILD_EXAMPLES) # This must come after MITKConfig.h was generated, since applications # might do a find_package(MITK REQUIRED). add_subdirectory(Examples) endif() #----------------------------------------------------------------------------- # Print configuration summary #----------------------------------------------------------------------------- message("\n\n") feature_summary( DESCRIPTION "------- FEATURE SUMMARY FOR ${PROJECT_NAME} -------" WHAT ALL ) diff --git a/MITKConfig.cmake.in b/MITKConfig.cmake.in index c88d88638e..e006a3ded6 100644 --- a/MITKConfig.cmake.in +++ b/MITKConfig.cmake.in @@ -1,314 +1,312 @@ if(CMAKE_VERSION VERSION_LESS @MITK_CMAKE_MINIMUM_REQUIRED_VERSION@) message(FATAL_ERROR "MITK requires at least CMake Version @MITK_CMAKE_MINIMUM_REQUIRED_VERSION@") endif() # The MITK version number set(MITK_VERSION_MAJOR "@MITK_VERSION_MAJOR@") set(MITK_VERSION_MINOR "@MITK_VERSION_MINOR@") set(MITK_VERSION_PATCH "@MITK_VERSION_PATCH@") set(MITK_VERSION_STRING "@MITK_VERSION_STRING@") #----------------------------------------------------------------------------- # C++ language standard #----------------------------------------------------------------------------- set(MITK_CXX_STANDARD @MITK_CXX_STANDARD@) #----------------------------------------------------------------------------- # Include required CMake scripts #----------------------------------------------------------------------------- # Update the CMake module path set(MITK_CMAKE_MODULE_PATH "@MITK_SOURCE_DIR@/CMake") list(APPEND CMAKE_MODULE_PATH ${MITK_CMAKE_MODULE_PATH}) # Standard CMake macros include(CMakeParseArguments) include(FeatureSummary) include(FindPackageHandleStandardArgs) include(GenerateExportHeader) # Include MITK macros include(MacroParseArguments) include(mitkFunctionAddCustomModuleTest) include(mitkFunctionCheckMitkCompatibility) include(mitkFunctionCheckModuleDependencies) include(mitkFunctionConfigureVisualStudioUserProjectFile) include(mitkFunctionCreateBlueBerryApplication) include(mitkFunctionCreateCommandLineApp) include(mitkFunctionCreateModule) include(mitkFunctionCreatePlugin) include(mitkFunctionCreateProvisioningFile) include(mitkFunctionCreateWindowsBatchScript) include(mitkFunctionGetLibrarySearchPaths) include(mitkFunctionInstallAutoLoadModules) include(mitkFunctionInstallCTKPlugin) include(mitkFunctionInstallProvisioningFiles) include(mitkFunctionInstallThirdPartyCTKPlugins) include(mitkFunctionOrganizeSources) include(mitkFunctionUseModules) include(mitkMacroCreateExecutable) include(mitkMacroCreateModuleTests) include(mitkMacroFindDependency) include(mitkMacroGenerateToolsLibrary) include(mitkMacroGetPMDPlatformString) include(mitkMacroInstall) include(mitkMacroInstallHelperApp) include(mitkMacroInstallTargets) include(mitkMacroMultiplexPicType) #----------------------------------------------------------------------------- # MITK flags and directories #----------------------------------------------------------------------------- # MITK compiler flags set(MITK_C_FLAGS "@MITK_C_FLAGS@") set(MTTK_C_FLAGS_DEBUG "@MITK_C_FLAGS_DEBUG@") set(MITK_C_FLAGS_RELEASE "@MITK_C_FLAGS_RELEASE@") set(MITK_CXX_FLAGS "@MITK_CXX_FLAGS@") set(MTTK_CXX_FLAGS_DEBUG "@MITK_CXX_FLAGS_DEBUG@") set(MITK_CXX_FLAGS_RELEASE "@MITK_CXX_FLAGS_RELEASE@") # MITK linker flags set(MITK_EXE_LINKER_FLAGS "@MITK_EXE_LINKER_FLAGS@") set(MITK_SHARED_LINKER_FLAGS "@MITK_SHARED_LINKER_FLAGS@") set(MITK_MODULE_LINKER_FLAGS "@MITK_MODULE_LINKER_FLAGS@") # MITK specific directories set(MITK_SOURCE_DIR "@MITK_SOURCE_DIR@") set(MITK_BINARY_DIR "@MITK_BINARY_DIR@") set(MITK_CMAKE_DIR "@MITK_CMAKE_DIR@") # MITK output directories set(MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY "@MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY@") set(MITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY "@MITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY@") set(MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY "@MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY@") #----------------------------------------------------------------------------- # Miscellaneous variables #----------------------------------------------------------------------------- # Internal version numbers, used for approximate compatibility checks # of a MITK development version (non-release). set(MITK_VERSION_PLUGIN_SYSTEM 2) # dropped legacy BlueBerry plug-in CMake support set(MITK_DATA_DIR "@MITK_DATA_DIR@") set(UTILITIES_DIR "@UTILITIES_DIR@") set(REGISTER_QFUNCTIONALITY_CPP_IN "@REGISTER_QFUNCTIONALITY_CPP_IN@") set(MITK_DOXYGEN_TAGFILE_NAME "@MITK_DOXYGEN_TAGFILE_NAME@") set(MITK_LEGACY_EXPORT_MACRO_NAME 1) set(DCMTK_CMAKE_DEBUG_POSTFIX @DCMTK_CMAKE_DEBUG_POSTFIX@) # Get the canonical name of the directory to avoid potential case mismatch, # e.g. in the drive letter on Windows. get_filename_component(CMAKE_CURRENT_LIST_DIR_REALPATH ${CMAKE_CURRENT_LIST_DIR} REALPATH) if(CMAKE_CURRENT_LIST_DIR_REALPATH STREQUAL MITK_BINARY_DIR) set(MITK_EXTERNAL_PROJECT_PREFIX @MITK_EXTERNAL_PROJECT_PREFIX@) endif() set(MITK_MODULES_PACKAGE_DEPENDS_DIR "@MITK_MODULES_PACKAGE_DEPENDS_DIR@") if(MODULES_PACKAGE_DEPENDS_DIRS) list(APPEND MODULES_PACKAGE_DEPENDS_DIRS ${MITK_MODULES_PACKAGE_DEPENDS_DIR}) list(REMOVE_DUPLICATES MODULES_PACKAGE_DEPENDS_DIRS) else() set(MODULES_PACKAGE_DEPENDS_DIRS ${MITK_MODULES_PACKAGE_DEPENDS_DIR}) endif() #----------------------------------------------------------------------------- # External dependencies #----------------------------------------------------------------------------- list(APPEND CMAKE_PREFIX_PATH "@MITK_EXTERNAL_PROJECT_PREFIX@") # ----------------------------------------- # Qt variables and dependencies set(MITK_USE_Qt5 @MITK_USE_Qt5@) if(MITK_USE_Qt5) set(MITK_QT5_MINIMUM_VERSION @MITK_QT5_MINIMUM_VERSION@) set(MITK_QT5_COMPONENTS @MITK_QT5_COMPONENTS@) mitkMacroFindDependency(Qt5 ${MITK_QT5_MINIMUM_VERSION} COMPONENTS ${MITK_QT5_COMPONENTS}) endif() # ----------------------------------------- # Special Python variables set(MITK_USE_Python @MITK_USE_Python@) if(MITK_USE_Python) - set(PYTHON_EXECUTABLE "@PYTHON_EXECUTABLE@" CACHE FILEPATH "") - set(PYTHON_INCLUDE_DIR "@PYTHON_INCLUDE_DIR@" CACHE PATH "") - set(PYTHON_LIBRARY "@PYTHON_LIBRARY@" CACHE FILEPATH "") - set(PYTHON_INCLUDE_DIR2 "@PYTHON_INCLUDE_DIR2@" CACHE PATH "") + set(Python3_EXECUTABLE "@Python3_EXECUTABLE@" CACHE FILEPATH "") + set(Python3_INCLUDE_DIR "@Python3_INCLUDE_DIR@" CACHE PATH "") + set(Python3_LIBRARY "@Python3_LIBRARY@" CACHE FILEPATH "") - mitkMacroFindDependency(PythonLibs) - mitkMacroFindDependency(PythonInterp) + mitkMacroFindDependency(Python3 COMPONENTS Interpreter Development) endif() # ----------------------------------------- # Special Boost variables set(MITK_USE_Boost_LIBRARIES @MITK_USE_Boost_LIBRARIES@) set(MITK_USE_SYSTEM_Boost @MITK_USE_SYSTEM_Boost@) set(BOOST_ROOT "@BOOST_ROOT@" CACHE PATH "") set(BOOST_LIBRARYDIR "@BOOST_LIBRARYDIR@" CACHE PATH "") set(Boost_ADDITIONAL_VERSIONS 1.68 1.68.0) # We need this later for a DCMTK workaround set(_dcmtk_dir_orig "@DCMTK_DIR@") # ----------------------------------------- # External dependencies from the superbuild # or injected from somewhere else via # _DIR variables. @MITK_CONFIG_EXTERNAL_PROJECTS@ # Ensure the MITK module path comes first set(CMAKE_MODULE_PATH ${MITK_CMAKE_MODULE_PATH} ${CMAKE_MODULE_PATH}) # ----------------------------------------- # Special handling for DCMTK if(MITK_USE_DCMTK) # Due to the preferred CONFIG mode in find_package calls above, # the DCMTKConfig.cmake file is read, which does not provide useful # package information. We explictly need MODULE mode to find DCMTK. if(${_dcmtk_dir_orig} MATCHES "${MITK_EXTERNAL_PROJECT_PREFIX}.*") # Help our FindDCMTK.cmake script find our super-build DCMTK set(DCMTK_DIR ${MITK_EXTERNAL_PROJECT_PREFIX}) else() # Use the original value set(DCMTK_DIR ${_dcmtk_dir_orig}) endif() find_package(DCMTK REQUIRED MODULE) endif() # ----------------------------------------- # Special handling for DCMQI if(MITK_USE_DCMQI) # Due to the preferred CONFIG mode in find_package calls above, # the DCMQIConfig.cmake file is read, which does not provide useful # package information. We explictly need MODULE mode to find DCMQI. # Help our FindDCMQI.cmake script find our super-build DCMQI set(DCMQI_DIR ${MITK_EXTERNAL_PROJECT_PREFIX}) find_package(DCMQI REQUIRED) endif() # ----------------------------------------- # Special handling for Boost if(MITK_USE_Boost) link_directories(${Boost_LIBRARY_DIRS}) endif() # ----------------------------------------- # Special handling for OpenIGTLink if(MITK_USE_OpenIGTLink) link_directories(${OpenIGTLink_LIBRARY_DIRS}) endif() # ----------------------------------------- # Internal project dependencies set(CppMicroServices_DIR "@CppMicroServices_DIR@") mitkMacroFindDependency(CppMicroServices) set(MITK_USE_BLUEBERRY @MITK_USE_BLUEBERRY@) if(MITK_USE_BLUEBERRY) set(MITK_PLUGIN_USE_FILE "@MITK_PLUGIN_USE_FILE@") if(MITK_PLUGIN_USE_FILE) if(EXISTS "${MITK_PLUGIN_USE_FILE}") include("${MITK_PLUGIN_USE_FILE}") endif() endif() set(MITK_PLUGIN_PROVISIONING_FILE "@MITK_EXTAPP_PROVISIONING_FILE@") set(MITK_PROVISIONING_FILES "${BLUEBERRY_PLUGIN_PROVISIONING_FILE}" "${MITK_PLUGIN_PROVISIONING_FILE}") endif() set(BLUEBERRY_USE_QT_HELP @BLUEBERRY_USE_QT_HELP@) if(BLUEBERRY_USE_QT_HELP AND DOXYGEN_VERSION VERSION_LESS "1.8.7") message("Setting BLUEBERRY_USE_QT_HELP to OFF because Doxygen version 1.8.7 or newer not found.") set(BLUEBERRY_USE_QT_HELP OFF) endif() set(BLUEBERRY_QTPLUGIN_PATH "@BLUEBERRY_QTPLUGIN_PATH@") set(QT_HELPGENERATOR_EXECUTABLE "@QT_HELPGENERATOR_EXECUTABLE@") set(QT_COLLECTIONGENERATOR_EXECUTABLE "@QT_COLLECTIONGENERATOR_EXECUTABLE@") set(QT_ASSISTANT_EXECUTABLE "@QT_ASSISTANT_EXECUTABLE@") set(QT_XMLPATTERNS_EXECUTABLE "@QT_XMLPATTERNS_EXECUTABLE@") #----------------------------------------------------------------------------- # MITK sub-project variables #----------------------------------------------------------------------------- # External SDK directories set(MITK_PMD_SDK_DIR @MITK_PMD_SDK_DIR@) # MITK ToF use variables set(MITK_TOF_PMDCAMCUBE_AVAILABLE @MITK_USE_TOF_PMDCAMCUBE@) if(MITK_TOF_PMDCAMCUBE_AVAILABLE AND NOT ${PROJECT_NAME} STREQUAL "MITK") option(MITK_USE_TOF_PMDCAMCUBE "Enable support for PMD Cam Cube" @MITK_USE_TOF_PMDCAMCUBE@) mark_as_advanced(MITK_USE_TOF_PMDCAMCUBE) endif() set(MITK_TOF_PMDCAMBOARD_AVAILABLE @MITK_USE_TOF_PMDCAMBOARD@) if(MITK_TOF_PMDCAMBOARD_AVAILABLE AND NOT ${PROJECT_NAME} STREQUAL "MITK") option(MITK_USE_TOF_PMDCAMBOARD "Enable support for PMD Cam Board" @MITK_USE_TOF_PMDCAMBOARD@) mark_as_advanced(MITK_USE_TOF_PMDCAMBOARD) endif() set(MITK_TOF_PMDO3_AVAILABLE @MITK_USE_TOF_PMDO3@) if(MITK_TOF_PMDO3_AVAILABLE AND NOT ${PROJECT_NAME} STREQUAL "MITK") option(MITK_USE_TOF_PMDO3 "Enable support for PMD =3" @MITK_USE_TOF_PMDO3@) mark_as_advanced(MITK_USE_TOF_PMDO3) endif() set(MITK_TOF_KINECT_AVAILABLE @MITK_USE_TOF_KINECT@) if(MITK_TOF_KINECT_AVAILABLE AND NOT ${PROJECT_NAME} STREQUAL "MITK") option(MITK_USE_TOF_KINECT "Enable support for Kinect" @MITK_USE_TOF_KINECT@) mark_as_advanced(MITK_USE_TOF_KINECT) endif() set(MITK_TOF_MESASR4000_AVAILABLE @MITK_USE_TOF_MESASR4000@) if(MITK_TOF_MESASR4000_AVAILABLE AND NOT ${PROJECT_NAME} STREQUAL "MITK") option(MITK_USE_TOF_MESASR4000 "Enable support for MESA SR4000" @MITK_USE_TOF_MESASR4000@) mark_as_advanced(MITK_USE_TOF_MESASR4000) endif() if(MITK_USE_IGT) #include("${MITK_DIR}/mitkIGTConfig.cmake") endif() #----------------------------------------------------------------------------- # Import MITK targets and set custom properties #----------------------------------------------------------------------------- if(NOT MITK_EXPORTS_FILE_INCLUDED) if(EXISTS "@MITK_EXPORTS_FILE@") set(MITK_EXPORTS_FILE_INCLUDED 1) include("@MITK_EXPORTS_FILE@") endif() endif() # Set properties on exported targets @MITK_EXPORTED_TARGET_PROPERTIES@ #----------------------------------------------------------------------------- # Install rules #----------------------------------------------------------------------------- # Install rules for ToF libraries loaded at runtime if(EXISTS "@MITK_BINARY_DIR@/mitkToFHardwareInstallRules.cmake") include("@MITK_BINARY_DIR@/mitkToFHardwareInstallRules.cmake") endif() diff --git a/Modules/Python/autoload/PythonService/PythonPath.h.in b/Modules/Python/autoload/PythonService/PythonPath.h.in index 28581baec4..11b0f0938b 100644 --- a/Modules/Python/autoload/PythonService/PythonPath.h.in +++ b/Modules/Python/autoload/PythonService/PythonPath.h.in @@ -1,16 +1 @@ -#ifdef _DEBUG -#define PYTHON_PATH_BUILD_TYPE "/Debug" -#else -#define PYTHON_PATH_BUILD_TYPE "/Release" -#endif - -#define PYTHON_LIBRARY "@PYTHON_LIBRARY@" - -#ifdef WIN32 -//Todo: windows system python -#define EXTERNAL_SITE_PACKAGES "@MITK_EXTERNAL_PROJECT_PREFIX@/lib/python@PYTHON_VERSION_MAJOR@.@PYTHON_VERSION_MINOR@/site-packages" -#define EXTERNAL_DIST_PACKAGES "@MITK_EXTERNAL_PROJECT_PREFIX@/lib/python@PYTHON_VERSION_MAJOR@.@PYTHON_VERSION_MINOR@/dist-packages" -#else -#define EXTERNAL_SITE_PACKAGES "@MITK_EXTERNAL_PROJECT_PREFIX@/lib/python@PYTHON_VERSION_MAJOR@.@PYTHON_VERSION_MINOR@/site-packages" -#define EXTERNAL_DIST_PACKAGES "@MITK_EXTERNAL_PROJECT_PREFIX@/lib/python@PYTHON_VERSION_MAJOR@.@PYTHON_VERSION_MINOR@/dist-packages" -#endif +#define Python3_LIBRARY "@Python3_LIBRARY@" diff --git a/Modules/Python/autoload/PythonService/mitkPythonService.cpp b/Modules/Python/autoload/PythonService/mitkPythonService.cpp index 367e07f69d..76e457b678 100644 --- a/Modules/Python/autoload/PythonService/mitkPythonService.cpp +++ b/Modules/Python/autoload/PythonService/mitkPythonService.cpp @@ -1,910 +1,908 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkPythonService.h" #include #include #include #include #include #include "PythonPath.h" #include #include #include #include #include #include #include #define NPY_NO_DEPRECATED_API NPY_1_7_API_VERSION #include #include #ifndef WIN32 #include #endif typedef itksys::SystemTools ist; mitk::PythonService::PythonService() : m_ItkWrappingAvailable( true ) , m_OpenCVWrappingAvailable( true ) , m_VtkWrappingAvailable( true ) , m_ErrorOccured( false ) { bool pythonInitialized = static_cast( Py_IsInitialized() ); //m_PythonManager.isPythonInitialized() ); // due to strange static var behaviour on windows Py_IsInitialized() returns correct value while // m_PythonManager.isPythonInitialized() does not because it has been constructed and destructed again if( !pythonInitialized ) { MITK_INFO << "Initializing python service"; //TODO a better way to do this #ifndef WIN32 dlerror(); - if(dlopen(PYTHON_LIBRARY, RTLD_NOW | RTLD_GLOBAL) == nullptr ) + if(dlopen(Python3_LIBRARY, RTLD_NOW | RTLD_GLOBAL) == nullptr ) { mitkThrow() << "Python runtime could not be loaded: " << dlerror(); } #endif std::string programPath = QCoreApplication::applicationDirPath().toStdString() + "/"; QString pythonCommand; pythonCommand.append( QString("import site, sys\n") ); pythonCommand.append( QString("import SimpleITK as sitk\n") ); pythonCommand.append( QString("import SimpleITK._SimpleITK as _SimpleITK\n") ); pythonCommand.append( QString("import numpy\n") ); pythonCommand.append( QString("sys.path.append('')\n") ); pythonCommand.append( QString("sys.path.append('%1')\n").arg(programPath.c_str()) ); - pythonCommand.append( QString("sys.path.append('%1')\n").arg(EXTERNAL_DIST_PACKAGES) ); - pythonCommand.append( QString("\nsite.addsitedir('%1')").arg(EXTERNAL_SITE_PACKAGES) ); if( pythonInitialized ) m_PythonManager.setInitializationFlags(PythonQt::RedirectStdOut|PythonQt::PythonAlreadyInitialized); else m_PythonManager.setInitializationFlags(PythonQt::RedirectStdOut); m_PythonManager.initialize(); m_PythonManager.executeString( pythonCommand, ctkAbstractPythonManager::FileInput ); } } mitk::PythonService::~PythonService() { MITK_DEBUG("mitk::PythonService") << "destructing PythonService"; } void mitk::PythonService::AddRelativeSearchDirs(std::vector< std::string > dirs) { std::string programPath = QCoreApplication::applicationDirPath().toStdString() + "/"; std::string cwd = ist::GetCurrentWorkingDirectory() + "/"; for (auto dir : dirs) { m_PythonManager.executeString(QString("sys.path.append('%1')").arg((programPath + dir).c_str()), ctkAbstractPythonManager::SingleInput ); m_PythonManager.executeString(QString("sys.path.append('%1')").arg((cwd + dir).c_str()), ctkAbstractPythonManager::SingleInput ); } } void mitk::PythonService::AddAbsoluteSearchDirs(std::vector< std::string > dirs) { for (auto dir : dirs) { m_PythonManager.executeString(QString("sys.path.append('%1')").arg(dir.c_str()), ctkAbstractPythonManager::SingleInput ); } } std::string mitk::PythonService::Execute(const std::string &stdpythonCommand, int commandType) { QString pythonCommand = QString::fromStdString(stdpythonCommand); QVariant result; bool commandIssued = true; if(commandType == IPythonService::SINGLE_LINE_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::SingleInput ); else if(commandType == IPythonService::MULTI_LINE_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::FileInput ); else if(commandType == IPythonService::EVAL_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::EvalInput ); else commandIssued = false; if(commandIssued) { this->NotifyObserver(pythonCommand.toStdString()); m_ErrorOccured = PythonQt::self()->hadError(); } return result.toString().toStdString(); } void mitk::PythonService::ExecuteScript( const std::string& pythonScript ) { std::ifstream t(pythonScript.c_str()); std::string str((std::istreambuf_iterator(t)), std::istreambuf_iterator()); t.close(); m_PythonManager.executeString(QString::fromStdString(str)); } std::vector mitk::PythonService::GetVariableStack() const { std::vector list; PyObject* dict = PyImport_GetModuleDict(); PyObject* object = PyDict_GetItemString(dict, "__main__"); PyObject* dirMain = PyObject_Dir(object); PyObject* tempObject = nullptr; //PyObject* strTempObject = 0; if(dirMain) { std::string name, attrValue, attrType; for(int i = 0; iob_type->tp_name; if(tempObject && ( PyUnicode_Check(tempObject) || PyString_Check(tempObject) ) ) attrValue = PyString_AsString(tempObject); else attrValue = ""; mitk::PythonVariable var; var.m_Name = name; var.m_Value = attrValue; var.m_Type = attrType; list.push_back(var); } } return list; } std::string mitk::PythonService::GetVariable(const std::string& name) const { std::vector allVars = this->GetVariableStack(); for(unsigned int i = 0; i< allVars.size(); i++) { if( allVars.at(i).m_Name == name ) return allVars.at(i).m_Value; } return ""; } bool mitk::PythonService::DoesVariableExist(const std::string& name) const { bool varExists = false; std::vector allVars = this->GetVariableStack(); for(unsigned int i = 0; i< allVars.size(); i++) { if( allVars.at(i).m_Name == name ) { varExists = true; break; } } return varExists; } void mitk::PythonService::AddPythonCommandObserver(mitk::PythonCommandObserver *observer) { if(!m_Observer.contains(observer)) m_Observer.append(observer); } void mitk::PythonService::RemovePythonCommandObserver(mitk::PythonCommandObserver *observer) { m_Observer.removeOne(observer); } void mitk::PythonService::NotifyObserver(const std::string &command) { MITK_DEBUG("mitk::PythonService") << "number of observer " << m_Observer.size(); for( int i=0; i< m_Observer.size(); ++i ) { m_Observer.at(i)->CommandExecuted(command); } } bool mitk::PythonService::CopyToPythonAsSimpleItkImage(mitk::Image *image, const std::string &stdvarName) { QString varName = QString::fromStdString( stdvarName ); QString command; unsigned int* imgDim = image->GetDimensions(); int npy_nd = 1; // access python module PyObject *pyMod = PyImport_AddModule("__main__"); // global dictionary PyObject *pyDict = PyModule_GetDict(pyMod); const mitk::Vector3D spacing = image->GetGeometry()->GetSpacing(); const mitk::Point3D origin = image->GetGeometry()->GetOrigin(); mitk::PixelType pixelType = image->GetPixelType(); itk::ImageIOBase::IOPixelType ioPixelType = image->GetPixelType().GetPixelType(); PyObject* npyArray = nullptr; mitk::ImageReadAccessor racc(image); void* array = const_cast(racc.GetData()); mitk::Vector3D xDirection; mitk::Vector3D yDirection; mitk::Vector3D zDirection; const vnl_matrix_fixed &transform = image->GetGeometry()->GetIndexToWorldTransform()->GetMatrix().GetVnlMatrix(); mitk::Vector3D s = image->GetGeometry()->GetSpacing(); // ToDo: Check if this is a collumn or row vector from the matrix. // right now it works but not sure for rotated geometries mitk::FillVector3D(xDirection, transform[0][0]/s[0], transform[0][1]/s[1], transform[0][2]/s[2]); mitk::FillVector3D(yDirection, transform[1][0]/s[0], transform[1][1]/s[1], transform[1][2]/s[2]); mitk::FillVector3D(zDirection, transform[2][0]/s[0], transform[2][1]/s[1], transform[2][2]/s[2]); // save the total number of elements here (since the numpy array is one dimensional) npy_intp* npy_dims = new npy_intp[1]; npy_dims[0] = imgDim[0]; /** * Build a string in the format [1024,1028,1] * to describe the dimensionality. This is needed for simple itk * to know the dimensions of the image */ QString dimensionString; dimensionString.append(QString("[")); dimensionString.append(QString::number(imgDim[0])); for (unsigned i = 1; i < 3; ++i) // always three because otherwise the 3d-geometry gets destroyed // (relevant for backtransformation of simple itk image to mitk. { dimensionString.append(QString(",")); dimensionString.append(QString::number(imgDim[i])); npy_dims[0] *= imgDim[i]; } dimensionString.append("]"); // the next line is necessary for vectorimages npy_dims[0] *= pixelType.GetNumberOfComponents(); // default pixeltype: unsigned short NPY_TYPES npy_type = NPY_USHORT; std::string sitk_type = "sitkUInt8"; if( ioPixelType == itk::ImageIOBase::SCALAR ) { if( pixelType.GetComponentType() == itk::ImageIOBase::DOUBLE ) { npy_type = NPY_DOUBLE; sitk_type = "sitkFloat64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::FLOAT ) { npy_type = NPY_FLOAT; sitk_type = "sitkFloat32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::SHORT) { npy_type = NPY_SHORT; sitk_type = "sitkInt16"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::CHAR ) { npy_type = NPY_BYTE; sitk_type = "sitkInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::INT ) { npy_type = NPY_INT; sitk_type = "sitkInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::LONG ) { npy_type = NPY_LONG; sitk_type = "sitkInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UCHAR ) { npy_type = NPY_UBYTE; sitk_type = "sitkUInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UINT ) { npy_type = NPY_UINT; sitk_type = "sitkUInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::ULONG ) { npy_type = NPY_LONG; sitk_type = "sitkUInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::USHORT ) { npy_type = NPY_USHORT; sitk_type = "sitkUInt16"; } } else if ( ioPixelType == itk::ImageIOBase::VECTOR || ioPixelType == itk::ImageIOBase::RGB || ioPixelType == itk::ImageIOBase::RGBA ) { if( pixelType.GetComponentType() == itk::ImageIOBase::DOUBLE ) { npy_type = NPY_DOUBLE; sitk_type = "sitkVectorFloat64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::FLOAT ) { npy_type = NPY_FLOAT; sitk_type = "sitkVectorFloat32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::SHORT) { npy_type = NPY_SHORT; sitk_type = "sitkVectorInt16"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::CHAR ) { npy_type = NPY_BYTE; sitk_type = "sitkVectorInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::INT ) { npy_type = NPY_INT; sitk_type = "sitkVectorInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::LONG ) { npy_type = NPY_LONG; sitk_type = "sitkVectorInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UCHAR ) { npy_type = NPY_UBYTE; sitk_type = "sitkVectorUInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UINT ) { npy_type = NPY_UINT; sitk_type = "sitkVectorUInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::ULONG ) { npy_type = NPY_LONG; sitk_type = "sitkVectorUInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::USHORT ) { npy_type = NPY_USHORT; sitk_type = "sitkVectorUInt16"; } } else { MITK_WARN << "not a recognized pixeltype"; return false; } // creating numpy array import_array1 (true); npyArray = PyArray_SimpleNewFromData(npy_nd,npy_dims,npy_type,array); // add temp array it to the python dictionary to access it in python code const int status = PyDict_SetItemString( pyDict,QString("%1_numpy_array") .arg(varName).toStdString().c_str(), npyArray ); // sanity check if ( status != 0 ) return false; command.append( QString("%1 = sitk.Image(%2,sitk.%3,%4)\n").arg(varName) .arg(dimensionString) .arg(QString(sitk_type.c_str())).arg(QString::number(pixelType.GetNumberOfComponents())) ); command.append( QString("%1.SetSpacing([%2,%3,%4])\n").arg(varName) .arg(QString::number(spacing[0])) .arg(QString::number(spacing[1])) .arg(QString::number(spacing[2])) ); command.append( QString("%1.SetOrigin([%2,%3,%4])\n").arg(varName) .arg(QString::number(origin[0])) .arg(QString::number(origin[1])) .arg(QString::number(origin[2])) ); command.append( QString("%1.SetDirection([%2,%3,%4,%5,%6,%7,%8,%9,%10])\n").arg(varName) .arg(QString::number(xDirection[0])) .arg(QString::number(xDirection[1])) .arg(QString::number(xDirection[2])) .arg(QString::number(yDirection[0])) .arg(QString::number(yDirection[1])) .arg(QString::number(yDirection[2])) .arg(QString::number(zDirection[0])) .arg(QString::number(zDirection[1])) .arg(QString::number(zDirection[2])) ); // directly access the cpp api from the lib command.append( QString("_SimpleITK._SetImageFromArray(%1_numpy_array,%1)\n").arg(varName) ); command.append( QString("del %1_numpy_array").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute( command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return true; } mitk::PixelType DeterminePixelType(const std::string& pythonPixeltype, unsigned long nrComponents, int dimensions) { typedef itk::RGBPixel< unsigned char > UCRGBPixelType; typedef itk::RGBPixel< unsigned short > USRGBPixelType; typedef itk::RGBPixel< float > FloatRGBPixelType; typedef itk::RGBPixel< double > DoubleRGBPixelType; typedef itk::Image< UCRGBPixelType > UCRGBImageType; typedef itk::Image< USRGBPixelType > USRGBImageType; typedef itk::Image< FloatRGBPixelType > FloatRGBImageType; typedef itk::Image< DoubleRGBPixelType > DoubleRGBImageType; typedef itk::RGBAPixel< unsigned char > UCRGBAPixelType; typedef itk::RGBAPixel< unsigned short > USRGBAPixelType; typedef itk::RGBAPixel< float > FloatRGBAPixelType; typedef itk::RGBAPixel< double > DoubleRGBAPixelType; typedef itk::Image< UCRGBAPixelType > UCRGBAImageType; typedef itk::Image< USRGBAPixelType > USRGBAImageType; typedef itk::Image< FloatRGBAPixelType > FloatRGBAImageType; typedef itk::Image< DoubleRGBAPixelType > DoubleRGBAImageType; auto pixelType = mitk::MakePixelType(nrComponents); if (nrComponents == 1) { if( pythonPixeltype.compare("float64") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("float32") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("int16") == 0) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("int8") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("int32") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("int64") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("uint8") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("uint32") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("uint64") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else if( pythonPixeltype.compare("uint16") == 0 ) { pixelType = mitk::MakePixelType(nrComponents); } else { mitkThrow()<< "unknown scalar PixelType"; } } else if(nrComponents == 3 && dimensions == 2) { if( pythonPixeltype.compare("float64") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("float32") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("uint8") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("uint16") == 0 ) { pixelType = mitk::MakePixelType(); } } else if( (nrComponents == 4) && dimensions == 2 ) { if( pythonPixeltype.compare("float64") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("float32") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("uint8") == 0 ) { pixelType = mitk::MakePixelType(); } else if( pythonPixeltype.compare("uint16") == 0 ) { pixelType = mitk::MakePixelType(); } } else { if( pythonPixeltype.compare("float64") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("float32") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("int16") == 0) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("int8") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("int32") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("int64") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("uint8") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("uint16") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("uint32") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else if( pythonPixeltype.compare("uint64") == 0 ) { pixelType = mitk::MakePixelType >(nrComponents); } else { mitkThrow()<< "unknown vectorial PixelType"; } } return pixelType; } mitk::Image::Pointer mitk::PythonService::CopySimpleItkImageFromPython(const std::string &stdvarName) { double*ds = nullptr; // access python module PyObject *pyMod = PyImport_AddModule("__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); mitk::Image::Pointer mitkImage = mitk::Image::New(); mitk::Vector3D spacing; mitk::Point3D origin; QString command; QString varName = QString::fromStdString( stdvarName ); command.append( QString("%1_numpy_array = sitk.GetArrayFromImage(%1)\n").arg(varName) ); command.append( QString("%1_spacing = numpy.asarray(%1.GetSpacing())\n").arg(varName) ); command.append( QString("%1_origin = numpy.asarray(%1.GetOrigin())\n").arg(varName) ); command.append( QString("%1_dtype = %1_numpy_array.dtype.name\n").arg(varName) ); command.append( QString("%1_direction = numpy.asarray(%1.GetDirection())\n").arg(varName) ); command.append( QString("%1_nrComponents = numpy.asarray(%1.GetNumberOfComponentsPerPixel())\n").arg(varName)); command.append( QString("%1_dtype = %1_numpy_array.dtype.name\n").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); PyObject* py_dtype = PyDict_GetItemString(pyDict,QString("%1_dtype").arg(varName).toStdString().c_str() ); std::string dtype = PyString_AsString(py_dtype); PyArrayObject* py_data = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_numpy_array").arg(varName).toStdString().c_str() ); PyArrayObject* py_spacing = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_spacing").arg(varName).toStdString().c_str() ); PyArrayObject* py_origin = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_origin").arg(varName).toStdString().c_str() ); PyArrayObject* py_direction = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_direction").arg(varName).toStdString().c_str() ); PyArrayObject* py_nrComponents = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_nrComponents").arg(varName).toStdString().c_str() ); unsigned int nr_Components = *(reinterpret_cast(PyArray_DATA(py_nrComponents))); unsigned int nr_dimensions = PyArray_NDIM(py_data); if (nr_Components > 1) // for VectorImages the last dimension in the numpy array are the vector components. { --nr_dimensions; } mitk::PixelType pixelType = DeterminePixelType(dtype, nr_Components, nr_dimensions); unsigned int* dimensions = new unsigned int[nr_dimensions]; // fill backwards , nd data saves dimensions in opposite direction for( unsigned i = 0; i < nr_dimensions; ++i ) { dimensions[i] = PyArray_DIMS(py_data)[nr_dimensions - 1 - i]; } mitkImage->Initialize(pixelType, nr_dimensions, dimensions); mitkImage->SetChannel(PyArray_DATA(py_data)); ds = reinterpret_cast(PyArray_DATA(py_spacing)); spacing[0] = ds[0]; spacing[1] = ds[1]; spacing[2] = ds[2]; mitkImage->GetGeometry()->SetSpacing(spacing); ds = reinterpret_cast(PyArray_DATA(py_origin)); origin[0] = ds[0]; origin[1] = ds[1]; origin[2] = ds[2]; mitkImage->GetGeometry()->SetOrigin(origin); itk::Matrix py_transform; ds = reinterpret_cast(PyArray_DATA(py_direction)); py_transform[0][0] = ds[0]; py_transform[0][1] = ds[1]; py_transform[0][2] = ds[2]; py_transform[1][0] = ds[3]; py_transform[1][1] = ds[4]; py_transform[1][2] = ds[5]; py_transform[2][0] = ds[6]; py_transform[2][1] = ds[7]; py_transform[2][2] = ds[8]; mitk::AffineTransform3D::Pointer affineTransform = mitkImage->GetGeometry()->GetIndexToWorldTransform(); itk::Matrix transform = py_transform * affineTransform->GetMatrix(); affineTransform->SetMatrix(transform); mitkImage->GetGeometry()->SetIndexToWorldTransform(affineTransform); // mitk::AffineTransform3D::New(); //mitkImage->GetGeometry()->SetIndexToWorldTransform(); // cleanup command.clear(); command.append( QString("del %1_numpy_array\n").arg(varName) ); command.append( QString("del %1_dtype\n").arg(varName) ); command.append( QString("del %1_spacing\n").arg(varName) ); command.append( QString("del %1_origin\n").arg(varName) ); command.append( QString("del %1_direction\n").arg(varName) ); command.append( QString("del %1_nrComponents\n").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); delete[] dimensions; return mitkImage; } bool mitk::PythonService::CopyToPythonAsCvImage( mitk::Image* image, const std::string& stdvarName ) { QString varName = QString::fromStdString( stdvarName ); QString command; unsigned int* imgDim = image->GetDimensions(); int npy_nd = 1; // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionary PyObject *pyDict = PyModule_GetDict(pyMod); mitk::PixelType pixelType = image->GetPixelType(); PyObject* npyArray = nullptr; mitk::ImageReadAccessor racc(image); void* array = (void*) racc.GetData(); // save the total number of elements here (since the numpy array is one dimensional) npy_intp* npy_dims = new npy_intp[1]; npy_dims[0] = imgDim[0]; /** * Build a string in the format [1024,1028,1] * to describe the dimensionality. This is needed for simple itk * to know the dimensions of the image */ QString dimensionString; dimensionString.append(QString("[")); dimensionString.append(QString::number(imgDim[0])); // ToDo: check if we need this for (unsigned i = 1; i < 3; ++i) // always three because otherwise the 3d-geometry gets destroyed // (relevant for backtransformation of simple itk image to mitk. { dimensionString.append(QString(",")); dimensionString.append(QString::number(imgDim[i])); npy_dims[0] *= imgDim[i]; } dimensionString.append("]"); // the next line is necessary for vectorimages npy_dims[0] *= pixelType.GetNumberOfComponents(); // default pixeltype: unsigned short NPY_TYPES npy_type = NPY_USHORT; if( pixelType.GetComponentType() == itk::ImageIOBase::DOUBLE ) { npy_type = NPY_DOUBLE; } else if( pixelType.GetComponentType() == itk::ImageIOBase::FLOAT ) { npy_type = NPY_FLOAT; } else if( pixelType.GetComponentType() == itk::ImageIOBase::SHORT) { npy_type = NPY_SHORT; } else if( pixelType.GetComponentType() == itk::ImageIOBase::CHAR ) { npy_type = NPY_BYTE; } else if( pixelType.GetComponentType() == itk::ImageIOBase::INT ) { npy_type = NPY_INT; } else if( pixelType.GetComponentType() == itk::ImageIOBase::LONG ) { npy_type = NPY_LONG; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UCHAR ) { npy_type = NPY_UBYTE; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UINT ) { npy_type = NPY_UINT; } else if( pixelType.GetComponentType() == itk::ImageIOBase::ULONG ) { npy_type = NPY_LONG; } else if( pixelType.GetComponentType() == itk::ImageIOBase::USHORT ) { npy_type = NPY_USHORT; } else { MITK_WARN << "not a recognized pixeltype"; return false; } // creating numpy array import_array1 (true); npyArray = PyArray_SimpleNewFromData(npy_nd,npy_dims,npy_type,array); // add temp array it to the python dictionary to access it in python code const int status = PyDict_SetItemString( pyDict,QString("%1_numpy_array") .arg(varName).toStdString().c_str(), npyArray ); // sanity check if ( status != 0 ) return false; command.append( QString("import numpy as np\n")); //command.append( QString("if '%1' in globals():\n").arg(varName)); //command.append( QString(" del %1\n").arg(varName)); command.append( QString("%1_array_tmp=%1_numpy_array.copy()\n").arg(varName)); command.append( QString("%1_array_tmp=%1_array_tmp.reshape(%2,%3,%4)\n").arg( varName, QString::number(imgDim[1]), QString::number(imgDim[0]), QString::number(pixelType.GetNumberOfComponents()))); command.append( QString("%1 = %1_array_tmp[:,...,::-1]\n").arg(varName)); command.append( QString("del %1_numpy_array\n").arg(varName) ); command.append( QString("del %1_array_tmp").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute( command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return true; } mitk::Image::Pointer mitk::PythonService::CopyCvImageFromPython( const std::string& stdvarName ) { // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); mitk::Image::Pointer mitkImage = mitk::Image::New(); QString command; QString varName = QString::fromStdString( stdvarName ); command.append( QString("import numpy as np\n")); command.append( QString("%1_dtype=%1.dtype.name\n").arg(varName) ); command.append( QString("%1_shape=np.asarray(%1.shape)\n").arg(varName) ); command.append( QString("%1_np_array=%1[:,...,::-1]\n").arg(varName)); command.append( QString("%1_np_array=np.reshape(%1_np_array,%1.shape[0] * %1.shape[1] * %1.shape[2])").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); PyObject* py_dtype = PyDict_GetItemString(pyDict,QString("%1_dtype").arg(varName).toStdString().c_str() ); std::string dtype = PyString_AsString(py_dtype); PyArrayObject* py_data = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_np_array").arg(varName).toStdString().c_str() ); PyArrayObject* shape = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_shape").arg(varName).toStdString().c_str() ); size_t* d = reinterpret_cast(PyArray_DATA(shape)); unsigned int dimensions[3]; dimensions[0] = d[1]; dimensions[1] = d[0]; dimensions[2] = d[2]; unsigned int nr_dimensions = 2; // get number of components unsigned int nr_Components = (unsigned int) d[2]; auto pixelType = DeterminePixelType(dtype, nr_Components, nr_dimensions); mitkImage->Initialize(pixelType, nr_dimensions, dimensions); //mitkImage->SetChannel(py_data->data); { mitk::ImageWriteAccessor ra(mitkImage); char* data = (char*)(ra.GetData()); memcpy(data, PyArray_DATA(py_data), dimensions[0] * dimensions[1] * pixelType.GetSize()); } command.clear(); command.append( QString("del %1_shape\n").arg(varName) ); command.append( QString("del %1_dtype\n").arg(varName) ); command.append( QString("del %1_np_array").arg(varName)); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return mitkImage; } ctkAbstractPythonManager *mitk::PythonService::GetPythonManager() { return &m_PythonManager; } mitk::Surface::Pointer mitk::PythonService::CopyVtkPolyDataFromPython( const std::string& stdvarName ) { // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); // python memory address PyObject *pyAddr = nullptr; // cpp address size_t addr = 0; mitk::Surface::Pointer surface = mitk::Surface::New(); QString command; QString varName = QString::fromStdString( stdvarName ); command.append( QString("%1_addr_str = %1.GetAddressAsString(\"vtkPolyData\")\n").arg(varName) ); // remove 0x from the address command.append( QString("%1_addr = int(%1_addr_str[5:],16)").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); // get address of the object pyAddr = PyDict_GetItemString(pyDict,QString("%1_addr").arg(varName).toStdString().c_str()); // convert to long addr = PyInt_AsLong(pyAddr); MITK_DEBUG << "Python object address: " << addr; // get the object vtkPolyData* poly = (vtkPolyData*)((void*)addr); surface->SetVtkPolyData(poly); // delete helper variables from python stack command = ""; command.append( QString("del %1_addr_str\n").arg(varName) ); command.append( QString("del %1_addr").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return surface; } bool mitk::PythonService::CopyToPythonAsVtkPolyData( mitk::Surface* surface, const std::string& stdvarName ) { QString varName = QString::fromStdString( stdvarName ); std::ostringstream oss; std::string addr = ""; QString command; QString address; oss << (void*) ( surface->GetVtkPolyData() ); // get the address addr = oss.str(); // remove "0x" address = QString::fromStdString(addr.substr(2)); command.append( QString("%1 = vtk.vtkPolyData(\"%2\")\n").arg(varName).arg(address) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return true; } bool mitk::PythonService::IsSimpleItkPythonWrappingAvailable() { this->Execute( "import SimpleITK as sitk\n", IPythonService::SINGLE_LINE_COMMAND ); // directly access cpp lib this->Execute( "import SimpleITK._SimpleITK as _SimpleITK\n", IPythonService::SINGLE_LINE_COMMAND ); m_ItkWrappingAvailable = !this->PythonErrorOccured(); // check for numpy this->Execute( "import numpy\n", IPythonService::SINGLE_LINE_COMMAND ); if ( this->PythonErrorOccured() ) MITK_ERROR << "Numpy not found."; m_ItkWrappingAvailable = !this->PythonErrorOccured(); return m_ItkWrappingAvailable; } bool mitk::PythonService::IsOpenCvPythonWrappingAvailable() { this->Execute( "import cv2\n", IPythonService::SINGLE_LINE_COMMAND ); m_OpenCVWrappingAvailable = !this->PythonErrorOccured(); return m_OpenCVWrappingAvailable; } bool mitk::PythonService::IsVtkPythonWrappingAvailable() { this->Execute( "import vtk", IPythonService::SINGLE_LINE_COMMAND ); //this->Execute( "print \"Using VTK version \" + vtk.vtkVersion.GetVTKVersion()\n", IPythonService::SINGLE_LINE_COMMAND ); m_VtkWrappingAvailable = !this->PythonErrorOccured(); return m_VtkWrappingAvailable; } bool mitk::PythonService::PythonErrorOccured() const { return m_ErrorOccured; } diff --git a/SuperBuild.cmake b/SuperBuild.cmake index b93627819d..6283b82cb5 100644 --- a/SuperBuild.cmake +++ b/SuperBuild.cmake @@ -1,462 +1,461 @@ include(mitkFunctionInstallExternalCMakeProject) #----------------------------------------------------------------------------- # Convenient macro allowing to download a file #----------------------------------------------------------------------------- if(NOT MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL) set(MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL http://mitk.org/download/thirdparty) endif() macro(downloadFile url dest) file(DOWNLOAD ${url} ${dest} STATUS status) list(GET status 0 error_code) list(GET status 1 error_msg) if(error_code) message(FATAL_ERROR "error: Failed to download ${url} - ${error_msg}") endif() endmacro() #----------------------------------------------------------------------------- # MITK Prerequisites #----------------------------------------------------------------------------- if(UNIX AND NOT APPLE) include(mitkFunctionCheckPackageHeader) # Check for libxt-dev mitkFunctionCheckPackageHeader(StringDefs.h libxt-dev /usr/include/X11/) # Check for libtiff4-dev mitkFunctionCheckPackageHeader(tiff.h libtiff4-dev) endif() # We need a proper patch program. On Linux and MacOS, we assume # that "patch" is available. On Windows, we download patch.exe # if not patch program is found. find_program(PATCH_COMMAND patch) if((NOT PATCH_COMMAND OR NOT EXISTS ${PATCH_COMMAND}) AND WIN32) downloadFile(${MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL}/patch.exe ${CMAKE_CURRENT_BINARY_DIR}/patch.exe) find_program(PATCH_COMMAND patch ${CMAKE_CURRENT_BINARY_DIR}) endif() if(NOT PATCH_COMMAND) message(FATAL_ERROR "No patch program found.") endif() #----------------------------------------------------------------------------- # ExternalProjects #----------------------------------------------------------------------------- get_property(external_projects GLOBAL PROPERTY MITK_EXTERNAL_PROJECTS) list(REMOVE_ITEM external_projects Python) list(REMOVE_ITEM external_projects OpenMP) if(MITK_CTEST_SCRIPT_MODE) # Write a file containing the list of enabled external project targets. # This file can be read by a ctest script to separately build projects. set(SUPERBUILD_TARGETS ) foreach(proj ${external_projects}) if(MITK_USE_${proj}) list(APPEND SUPERBUILD_TARGETS ${proj}) endif() endforeach() file(WRITE "${CMAKE_BINARY_DIR}/SuperBuildTargets.cmake" "set(SUPERBUILD_TARGETS ${SUPERBUILD_TARGETS})") endif() # A list of "nice" external projects, playing well together with CMake set(nice_external_projects ${external_projects}) list(REMOVE_ITEM nice_external_projects Boost) foreach(proj ${nice_external_projects}) if(MITK_USE_${proj}) set(EXTERNAL_${proj}_DIR "${${proj}_DIR}" CACHE PATH "Path to ${proj} build directory") mark_as_advanced(EXTERNAL_${proj}_DIR) if(EXTERNAL_${proj}_DIR) set(${proj}_DIR ${EXTERNAL_${proj}_DIR}) endif() endif() endforeach() set(EXTERNAL_BOOST_ROOT "${BOOST_ROOT}" CACHE PATH "Path to Boost directory") mark_as_advanced(EXTERNAL_BOOST_ROOT) if(EXTERNAL_BOOST_ROOT) set(BOOST_ROOT ${EXTERNAL_BOOST_ROOT}) endif() # Setup file for setting custom ctest vars configure_file( CMake/SuperbuildCTestCustom.cmake.in ${MITK_BINARY_DIR}/CTestCustom.cmake @ONLY ) if(BUILD_TESTING) set(EXTERNAL_MITK_DATA_DIR "${MITK_DATA_DIR}" CACHE PATH "Path to the MITK data directory") mark_as_advanced(EXTERNAL_MITK_DATA_DIR) if(EXTERNAL_MITK_DATA_DIR) set(MITK_DATA_DIR ${EXTERNAL_MITK_DATA_DIR}) endif() endif() #----------------------------------------------------------------------------- # External project settings #----------------------------------------------------------------------------- include(ExternalProject) set(ep_prefix "${CMAKE_BINARY_DIR}/ep") set_property(DIRECTORY PROPERTY EP_PREFIX ${ep_prefix}) # Compute -G arg for configuring external projects with the same CMake generator: if(CMAKE_EXTRA_GENERATOR) set(gen "${CMAKE_EXTRA_GENERATOR} - ${CMAKE_GENERATOR}") else() set(gen "${CMAKE_GENERATOR}") endif() # Use this value where semi-colons are needed in ep_add args: set(sep "^^") ## if(MSVC_VERSION) set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} /bigobj /MP") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /bigobj /MP") endif() # This is a workaround for passing linker flags # actually down to the linker invocation set(_cmake_required_flags_orig ${CMAKE_REQUIRED_FLAGS}) set(CMAKE_REQUIRED_FLAGS "-Wl,-rpath") mitkFunctionCheckCompilerFlags(${CMAKE_REQUIRED_FLAGS} _has_rpath_flag) set(CMAKE_REQUIRED_FLAGS ${_cmake_required_flags_orig}) set(_install_rpath_linkflag ) if(_has_rpath_flag) if(APPLE) set(_install_rpath_linkflag "-Wl,-rpath,@loader_path/../lib") else() set(_install_rpath_linkflag "-Wl,-rpath='$ORIGIN/../lib'") endif() endif() set(_install_rpath) if(APPLE) set(_install_rpath "@loader_path/../lib") elseif(UNIX) # this work for libraries as well as executables set(_install_rpath "\$ORIGIN/../lib") endif() set(ep_common_args -DCMAKE_CXX_EXTENSIONS:STRING=${CMAKE_CXX_EXTENSIONS} -DCMAKE_CXX_STANDARD:STRING=${CMAKE_CXX_STANDARD} -DCMAKE_CXX_STANDARD_REQUIRED:BOOL=${CMAKE_CXX_STANDARD_REQUIRED} -DCMAKE_MACOSX_RPATH:BOOL=TRUE "-DCMAKE_INSTALL_RPATH:STRING=${_install_rpath}" -DBUILD_TESTING:BOOL=OFF -DCMAKE_INSTALL_PREFIX:PATH= -DBUILD_SHARED_LIBS:BOOL=ON -DCMAKE_BUILD_TYPE:STRING=${CMAKE_BUILD_TYPE} -DCMAKE_C_COMPILER:FILEPATH=${CMAKE_C_COMPILER} -DCMAKE_CXX_COMPILER:FILEPATH=${CMAKE_CXX_COMPILER} -DCMAKE_C_FLAGS:STRING=${CMAKE_C_FLAGS} "-DCMAKE_CXX_FLAGS:STRING=${CMAKE_CXX_FLAGS} ${MITK_CXX14_FLAG}" #debug flags -DCMAKE_CXX_FLAGS_DEBUG:STRING=${CMAKE_CXX_FLAGS_DEBUG} -DCMAKE_C_FLAGS_DEBUG:STRING=${CMAKE_C_FLAGS_DEBUG} #release flags -DCMAKE_CXX_FLAGS_RELEASE:STRING=${CMAKE_CXX_FLAGS_RELEASE} -DCMAKE_C_FLAGS_RELEASE:STRING=${CMAKE_C_FLAGS_RELEASE} #relwithdebinfo -DCMAKE_CXX_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_CXX_FLAGS_RELWITHDEBINFO} -DCMAKE_C_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_C_FLAGS_RELWITHDEBINFO} #link flags -DCMAKE_EXE_LINKER_FLAGS:STRING=${CMAKE_EXE_LINKER_FLAGS} -DCMAKE_SHARED_LINKER_FLAGS:STRING=${CMAKE_SHARED_LINKER_FLAGS} -DCMAKE_MODULE_LINKER_FLAGS:STRING=${CMAKE_MODULE_LINKER_FLAGS} ) set(DCMTK_CMAKE_DEBUG_POSTFIX ) # python libraries wont work with it if(NOT MITK_USE_Python) list(APPEND ep_common_args -DCMAKE_DEBUG_POSTFIX:STRING=d) set(DCMTK_CMAKE_DEBUG_POSTFIX d) endif() set(ep_common_cache_args ) set(ep_common_cache_default_args "-DCMAKE_PREFIX_PATH:PATH=;${CMAKE_PREFIX_PATH}" "-DCMAKE_INCLUDE_PATH:PATH=${CMAKE_INCLUDE_PATH}" "-DCMAKE_LIBRARY_PATH:PATH=${CMAKE_LIBRARY_PATH}" ) # Pass the CMAKE_OSX variables to external projects if(APPLE) set(MAC_OSX_ARCHITECTURE_ARGS -DCMAKE_OSX_ARCHITECTURES:PATH=${CMAKE_OSX_ARCHITECTURES} -DCMAKE_OSX_DEPLOYMENT_TARGET:PATH=${CMAKE_OSX_DEPLOYMENT_TARGET} -DCMAKE_OSX_SYSROOT:PATH=${CMAKE_OSX_SYSROOT} ) set(ep_common_args ${MAC_OSX_ARCHITECTURE_ARGS} ${ep_common_args} ) endif() set(mitk_superbuild_ep_args) set(mitk_depends ) # Include external projects include(CMakeExternals/MITKData.cmake) foreach(p ${external_projects}) if(EXISTS ${CMAKE_SOURCE_DIR}/CMakeExternals/${p}.cmake) include(CMakeExternals/${p}.cmake) else() foreach(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIRS}) get_filename_component(MITK_EXTENSION_DIR ${MITK_EXTENSION_DIR} ABSOLUTE) set(MITK_CMAKE_EXTERNALS_EXTENSION_DIR ${MITK_EXTENSION_DIR}/CMakeExternals) if(EXISTS ${MITK_CMAKE_EXTERNALS_EXTENSION_DIR}/${p}.cmake) include(${MITK_CMAKE_EXTERNALS_EXTENSION_DIR}/${p}.cmake) break() endif() endforeach() endif() list(APPEND mitk_superbuild_ep_args -DMITK_USE_${p}:BOOL=${MITK_USE_${p}} ) get_property(_package GLOBAL PROPERTY MITK_${p}_PACKAGE) if(_package) list(APPEND mitk_superbuild_ep_args -D${p}_DIR:PATH=${${p}_DIR}) endif() list(APPEND mitk_depends ${${p}_DEPENDS}) endforeach() if (SWIG_EXECUTABLE) list(APPEND mitk_superbuild_ep_args -DSWIG_EXECUTABLE=${SWIG_EXECUTABLE}) endif() #----------------------------------------------------------------------------- # Set superbuild boolean args #----------------------------------------------------------------------------- set(mitk_cmake_boolean_args BUILD_SHARED_LIBS WITH_COVERAGE BUILD_TESTING MITK_BUILD_ALL_PLUGINS MITK_BUILD_ALL_APPS MITK_BUILD_EXAMPLES MITK_USE_Qt5 MITK_USE_SYSTEM_Boost MITK_USE_BLUEBERRY MITK_USE_OpenCL MITK_ENABLE_PIC_READER ) #----------------------------------------------------------------------------- # Create the final variable containing superbuild boolean args #----------------------------------------------------------------------------- set(mitk_superbuild_boolean_args) foreach(mitk_cmake_arg ${mitk_cmake_boolean_args}) list(APPEND mitk_superbuild_boolean_args -D${mitk_cmake_arg}:BOOL=${${mitk_cmake_arg}}) endforeach() if(MITK_BUILD_ALL_PLUGINS) list(APPEND mitk_superbuild_boolean_args -DBLUEBERRY_BUILD_ALL_PLUGINS:BOOL=ON) endif() #----------------------------------------------------------------------------- # MITK Utilities #----------------------------------------------------------------------------- set(proj MITK-Utilities) ExternalProject_Add(${proj} DOWNLOAD_COMMAND "" CONFIGURE_COMMAND "" BUILD_COMMAND "" INSTALL_COMMAND "" DEPENDS ${mitk_depends} ) #----------------------------------------------------------------------------- # Additional MITK CXX/C Flags #----------------------------------------------------------------------------- set(MITK_ADDITIONAL_C_FLAGS "" CACHE STRING "Additional C Flags for MITK") set(MITK_ADDITIONAL_C_FLAGS_RELEASE "" CACHE STRING "Additional Release C Flags for MITK") set(MITK_ADDITIONAL_C_FLAGS_DEBUG "" CACHE STRING "Additional Debug C Flags for MITK") mark_as_advanced(MITK_ADDITIONAL_C_FLAGS MITK_ADDITIONAL_C_FLAGS_DEBUG MITK_ADDITIONAL_C_FLAGS_RELEASE) set(MITK_ADDITIONAL_CXX_FLAGS "" CACHE STRING "Additional CXX Flags for MITK") set(MITK_ADDITIONAL_CXX_FLAGS_RELEASE "" CACHE STRING "Additional Release CXX Flags for MITK") set(MITK_ADDITIONAL_CXX_FLAGS_DEBUG "" CACHE STRING "Additional Debug CXX Flags for MITK") mark_as_advanced(MITK_ADDITIONAL_CXX_FLAGS MITK_ADDITIONAL_CXX_FLAGS_DEBUG MITK_ADDITIONAL_CXX_FLAGS_RELEASE) set(MITK_ADDITIONAL_EXE_LINKER_FLAGS "" CACHE STRING "Additional exe linker flags for MITK") set(MITK_ADDITIONAL_SHARED_LINKER_FLAGS "" CACHE STRING "Additional shared linker flags for MITK") set(MITK_ADDITIONAL_MODULE_LINKER_FLAGS "" CACHE STRING "Additional module linker flags for MITK") mark_as_advanced(MITK_ADDITIONAL_EXE_LINKER_FLAGS MITK_ADDITIONAL_SHARED_LINKER_FLAGS MITK_ADDITIONAL_MODULE_LINKER_FLAGS) #----------------------------------------------------------------------------- # MITK Configure #----------------------------------------------------------------------------- if(MITK_INITIAL_CACHE_FILE) set(mitk_initial_cache_arg -C "${MITK_INITIAL_CACHE_FILE}") endif() set(mitk_optional_cache_args ) foreach(type RUNTIME ARCHIVE LIBRARY) if(DEFINED CTK_PLUGIN_${type}_OUTPUT_DIRECTORY) list(APPEND mitk_optional_cache_args -DCTK_PLUGIN_${type}_OUTPUT_DIRECTORY:PATH=${CTK_PLUGIN_${type}_OUTPUT_DIRECTORY}) endif() endforeach() # Optional python variables if(MITK_USE_Python) list(APPEND mitk_optional_cache_args -DMITK_USE_Python:BOOL=${MITK_USE_Python} - -DPYTHON_EXECUTABLE:FILEPATH=${PYTHON_EXECUTABLE} - -DPYTHON_INCLUDE_DIR:PATH=${PYTHON_INCLUDE_DIR} - -DPYTHON_LIBRARY:FILEPATH=${PYTHON_LIBRARY} - -DPYTHON_INCLUDE_DIR2:PATH=${PYTHON_INCLUDE_DIR2} + -DPython3_EXECUTABLE:FILEPATH=${Python3_EXECUTABLE} + -DPython3_INCLUDE_DIR:PATH=${Python3_INCLUDE_DIR} + -DPython3_LIBRARY:FILEPATH=${Python3_LIBRARY} ) endif() if(Eigen_INCLUDE_DIR) list(APPEND mitk_optional_cache_args -DEigen_INCLUDE_DIR:PATH=${Eigen_INCLUDE_DIR} ) endif() # Optional pass through of Doxygen if(DOXYGEN_EXECUTABLE) list(APPEND mitk_optional_cache_args -DDOXYGEN_EXECUTABLE:FILEPATH=${DOXYGEN_EXECUTABLE} ) endif() set(proj MITK-Configure) ExternalProject_Add(${proj} LIST_SEPARATOR ${sep} DOWNLOAD_COMMAND "" CMAKE_GENERATOR ${gen} CMAKE_CACHE_ARGS # --------------- Build options ---------------- -DCMAKE_INSTALL_PREFIX:PATH=${CMAKE_INSTALL_PREFIX} -DCMAKE_BUILD_TYPE:STRING=${CMAKE_BUILD_TYPE} "-DCMAKE_PREFIX_PATH:PATH=${ep_prefix};${CMAKE_PREFIX_PATH}" "-DCMAKE_LIBRARY_PATH:PATH=${CMAKE_LIBRARY_PATH}" "-DCMAKE_INCLUDE_PATH:PATH=${CMAKE_INCLUDE_PATH}" # --------------- Compile options ---------------- -DCMAKE_CXX_EXTENSIONS:STRING=${CMAKE_CXX_EXTENSIONS} -DCMAKE_CXX_STANDARD:STRING=${CMAKE_CXX_STANDARD} -DCMAKE_CXX_STANDARD_REQUIRED:BOOL=${CMAKE_CXX_STANDARD_REQUIRED} -DCMAKE_C_COMPILER:FILEPATH=${CMAKE_C_COMPILER} -DCMAKE_CXX_COMPILER:FILEPATH=${CMAKE_CXX_COMPILER} "-DCMAKE_C_FLAGS:STRING=${CMAKE_C_FLAGS} ${MITK_ADDITIONAL_C_FLAGS}" "-DCMAKE_CXX_FLAGS:STRING=${CMAKE_CXX_FLAGS} ${MITK_ADDITIONAL_CXX_FLAGS}" # debug flags "-DCMAKE_CXX_FLAGS_DEBUG:STRING=${CMAKE_CXX_FLAGS_DEBUG} ${MITK_ADDITIONAL_CXX_FLAGS_DEBUG}" "-DCMAKE_C_FLAGS_DEBUG:STRING=${CMAKE_C_FLAGS_DEBUG} ${MITK_ADDITIONAL_C_FLAGS_DEBUG}" # release flags "-DCMAKE_CXX_FLAGS_RELEASE:STRING=${CMAKE_CXX_FLAGS_RELEASE} ${MITK_ADDITIONAL_CXX_FLAGS_RELEASE}" "-DCMAKE_C_FLAGS_RELEASE:STRING=${CMAKE_C_FLAGS_RELEASE} ${MITK_ADDITIONAL_C_FLAGS_RELEASE}" # relwithdebinfo -DCMAKE_CXX_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_CXX_FLAGS_RELWITHDEBINFO} -DCMAKE_C_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_C_FLAGS_RELWITHDEBINFO} # link flags "-DCMAKE_EXE_LINKER_FLAGS:STRING=${CMAKE_EXE_LINKER_FLAGS} ${MITK_ADDITIONAL_EXE_LINKER_FLAGS}" "-DCMAKE_SHARED_LINKER_FLAGS:STRING=${CMAKE_SHARED_LINKER_FLAGS} ${MITK_ADDITIONAL_SHARED_LINKER_FLAGS}" "-DCMAKE_MODULE_LINKER_FLAGS:STRING=${CMAKE_MODULE_LINKER_FLAGS} ${MITK_ADDITIONAL_MODULE_LINKER_FLAGS}" # Output directories -DMITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY} -DMITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY} -DMITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY} # ------------- Boolean build options -------------- ${mitk_superbuild_boolean_args} ${mitk_optional_cache_args} -DMITK_USE_SUPERBUILD:BOOL=OFF -DMITK_BUILD_CONFIGURATION:STRING=${MITK_BUILD_CONFIGURATION} -DCTEST_USE_LAUNCHERS:BOOL=${CTEST_USE_LAUNCHERS} # ----------------- Miscellaneous --------------- -DCMAKE_LIBRARY_PATH:PATH=${CMAKE_LIBRARY_PATH} -DCMAKE_INCLUDE_PATH:PATH=${CMAKE_INCLUDE_PATH} -DMITK_CTEST_SCRIPT_MODE:STRING=${MITK_CTEST_SCRIPT_MODE} -DMITK_SUPERBUILD_BINARY_DIR:PATH=${MITK_BINARY_DIR} -DMITK_MODULES_TO_BUILD:INTERNAL=${MITK_MODULES_TO_BUILD} -DMITK_WHITELIST:STRING=${MITK_WHITELIST} -DMITK_WHITELISTS_EXTERNAL_PATH:STRING=${MITK_WHITELISTS_EXTERNAL_PATH} -DMITK_WHITELISTS_INTERNAL_PATH:STRING=${MITK_WHITELISTS_INTERNAL_PATH} -DMITK_EXTENSION_DIRS:STRING=${MITK_EXTENSION_DIRS} -DMITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES} -DMITK_ACCESSBYITK_FLOATING_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES} -DMITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES} -DMITK_ACCESSBYITK_VECTOR_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_VECTOR_PIXEL_TYPES} -DMITK_ACCESSBYITK_DIMENSIONS:STRING=${MITK_ACCESSBYITK_DIMENSIONS} # --------------- External project options --------------- -DMITK_DATA_DIR:PATH=${MITK_DATA_DIR} -DMITK_EXTERNAL_PROJECT_PREFIX:PATH=${ep_prefix} -DCppMicroServices_DIR:PATH=${CppMicroServices_DIR} -DDCMTK_CMAKE_DEBUG_POSTFIX:STRING=${DCMTK_CMAKE_DEBUG_POSTFIX} -DBOOST_ROOT:PATH=${BOOST_ROOT} -DBOOST_LIBRARYDIR:PATH=${BOOST_LIBRARYDIR} -DMITK_USE_Boost_LIBRARIES:STRING=${MITK_USE_Boost_LIBRARIES} -DQt5_DIR:PATH=${Qt5_DIR} CMAKE_ARGS ${mitk_initial_cache_arg} ${MAC_OSX_ARCHITECTURE_ARGS} ${mitk_superbuild_ep_args} SOURCE_DIR ${CMAKE_CURRENT_SOURCE_DIR} BINARY_DIR ${CMAKE_BINARY_DIR}/MITK-build BUILD_COMMAND "" INSTALL_COMMAND "" DEPENDS MITK-Utilities ) mitkFunctionInstallExternalCMakeProject(${proj}) #----------------------------------------------------------------------------- # MITK #----------------------------------------------------------------------------- if(CMAKE_GENERATOR MATCHES ".*Makefiles.*") set(mitk_build_cmd "$(MAKE)") else() set(mitk_build_cmd ${CMAKE_COMMAND} --build ${CMAKE_CURRENT_BINARY_DIR}/MITK-build --config ${CMAKE_CFG_INTDIR}) endif() if(NOT DEFINED SUPERBUILD_EXCLUDE_MITKBUILD_TARGET OR NOT SUPERBUILD_EXCLUDE_MITKBUILD_TARGET) set(MITKBUILD_TARGET_ALL_OPTION "ALL") else() set(MITKBUILD_TARGET_ALL_OPTION "") endif() add_custom_target(MITK-build ${MITKBUILD_TARGET_ALL_OPTION} COMMAND ${mitk_build_cmd} WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/MITK-build DEPENDS MITK-Configure ) #----------------------------------------------------------------------------- # Custom target allowing to drive the build of the MITK project itself #----------------------------------------------------------------------------- add_custom_target(MITK COMMAND ${mitk_build_cmd} WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/MITK-build )