#!/usr/bin/env python #-*- coding:utf-8 -*- APPLICATION : { name : 'SALOME-9.7.0-native' workdir : $LOCAL.workdir + $VARS.sep + $APPLICATION.name + '-' + $VARS.dist tag : 'V9_7_0' dev : 'no' verbose :'no' debug : 'no' base : 'no' python3 : 'yes' environ : { build : { CONFIGURATION_ROOT_DIR : $workdir + $VARS.sep + "SOURCES" + $VARS.sep + "CONFIGURATION" RESTRICTED_ROOT_DIR : $workdir + $VARS.sep + "SOURCES" + $VARS.sep + "RESTRICTED" SALOME_USE_64BIT_IDS : '1' VTK_SMP_IMPLEMENTATION_TYPE : 'OpenMP' # OpenMP # choose among: sequential / OpenMP / TBB switches } launch : {PYTHONIOENCODING:"UTF_8"} # alternative is to encode every accentued string with .encode('utf-8') SALOME_trace : "local" # local/file:.../with_logger SALOME_MODULES : "SHAPER,SHAPERSTUDY,GEOM,SMESH,PARAVIS,YACS,JOBMANAGER" # specify the first modules to display in gui SALOME_ACTOR_DELEGATE_TO_VTK : '1' } products : { # PREREQUISITES : alabaster : 'native' Babel : 'native' boost : 'native' CAS : {tag: 'V7_5_0p1', section: 'version_V7_5_0'} certifi : 'native' # Standalone native cgns works well. Unfortunately, it's directly linked to native hdf which uses a higher version than us. # Rollback to embedded version to avoid versions mismatch between both of them (see imp_1538_cgns_export_import.py) cgns : '4.1.1' chardet : 'native' click : 'native' cmake : 'native' cppunit : 'native' cycler : 'native' Cython : 'native' dateutil : 'native' docutils : 'native' doxygen : 'native' eigen : 'native' embree : '3.12.2' freeimage : 'native' freetype : 'native' gl2ps : 'native' # 'native' too difficult here : need python-pip package (gmsh-sdk) besides system packages gmsh : '4.1.4' graphviz : 'native' hdf5 : '1.10.3' idna : 'native' imagesize : 'native' # 'native' not exists (only available on Fedora platform) ispc : '1.15.0' Jinja2 : 'native' kiwisolver : 'native' lapack : 'native' libxml2 : 'native' llvm : 'native' markupsafe : 'native' matplotlib : 'native' medfile : {section: 'default_Autotools', tag: '4.1.0'} mesa : 'native' MeshGems : '2.12-1' metis : 'native' netgen : '5.3.1_with_CAS_7.2' nlopt : '2.4.2' numpy : 'native' omniORB : '4.2.3' omniORBpy : '4.2.3' opencv : 'native' openVKL : '0.11.0' openturns: '1.16' ospray : '2.4.0' packaging : 'native' ParaView : '5.9.0' petsc : {tag : '3.15.0', section: 'version_3_15_0'} Pillow : 'native' # 'native' not exists : freeCAD part but not delivered with it from package handler planegcs : '0.18-3cb6890' psutil : 'native' Pygments : 'native' pyparsing : 'native' PyQt : 'native' pyreadline : 'native' Python : 'native' pytz : 'native' qt : 'native' qwt : 'native' requests : 'native' rkCommon : '1.5.1' root: '6.22.02' scipy : 'native' scotch : 'native' setuptools : 'native' sip : 'native' six : 'native' snowballstemmer : 'native' Sphinx : 'native' sphinxcontrib_websupport : 'native' sphinxintl: 'native' sphinx_rtd_theme : 'native' StaticMeshPlugin: '5.8.0' swig : 'native' salome_system : 'native' tbb : 'native' tcl : 'native' tk : 'native' urllib3 : 'native' URANIE : '4.5.0' # SALOME MODULES : 'CONFIGURATION' 'SALOME' 'SHAPER' 'SHAPERSTUDY' 'RESTRICTED' 'LIBBATCH' : {tag :'V2_4_5'} 'KERNEL' 'MEDCOUPLING' 'GUI' 'GEOM' 'SMESH' 'NETGENPLUGIN' 'BLSURFPLUGIN' 'GHS3DPLUGIN' 'GHS3DPRLPLUGIN' 'HYBRIDPLUGIN' 'HexoticPLUGIN' 'GMSHPLUGIN' 'HEXABLOCK' 'HEXABLOCKPLUGIN' 'HOMARD' 'FIELDS' 'PARAVIS' 'JOBMANAGER' 'YACS' 'YACSGEN' 'SOLVERLAB' 'DOCUMENTATION' 'SAMPLES' 'COMPONENT' 'PYCALCULATOR' 'CALCULATOR' 'HELLO' 'PYHELLO' 'EFICAS' 'EFICAS_TOOLS' 'PY2CPP' 'ADAO' 'ADAO_INTERFACE' 'PARAVISADDONS' 'CEATESTBASE' : {tag: 'SalomeV9'} } profile : { launcher_name : "salome" } virtual_app: { name : "salome" application_name : "APPLI" } test_base : { name : "SALOME" tag : "SalomeV9" } properties : { mesa_launcher_in_package : "yes" repo_dev : "yes" pip : 'yes' pip_install_dir : 'python' single_install_dir : "yes" } } __overwrite__ : [ { # Although recent adaptations of GEOM CMake procedure to be compliant with openCV 4.X, some # deeper investigations need to be done in its sources. Use embedded openCV product where # native one is 4.X. __condition__ : "VARS.dist in ['FD32', 'UB20.04']" 'APPLICATION.products.opencv' : '3.2.0' } { # __condition__ : "VARS.dist in ['UB20.04', 'CO8', 'FD32']" 'PRODUCTS.ParaView.version_5_9_0.patches' : ['paraview.0003-ParaViewClient.patch', 'paraview.0005-ParaView_find_cgns.patch', 'paraview.0010-ParaView_CATALYST_cmake.patch', 'paraview.0008-ParaView_coincident_rendering.patch', 'paraview.0017-ParaView_protobuf_crash.patch', 'paraview.0015-Paraview_VTKM_ioss.patch' ] } { # On DB10, ParaView fails to find xmlpatterns executable : ParaViewClient.cmake try to find it # from Qt5_DIR, going back from it in filesystem (hardcoded). # The standard patch is also needed to be able to build PARAVIS (same kind of issue). # What is more, ParaView 5.9 CMake procedure requires Qt 5.12 as minimum version (5.11 here). # As this version is compliant too, let's force it as the new minimum needed version. __condition__ : "VARS.dist in ['DB10']" 'PRODUCTS.ParaView.version_5_9_0.patches' : ['paraview.0003-ParaViewClient.patch', 'paraview.0005-ParaView_find_cgns.patch', 'paraview-5.9_qt-minimum-version.patch', 'paraview.0003-ParaViewClient_native.patch', 'paraview.0010-ParaView_CATALYST_cmake.patch', 'paraview.0008-ParaView_coincident_rendering.patch', 'paraview.0017-ParaView_protobuf_crash.patch', 'paraview.0015-Paraview_VTKM_ioss.patch' ] } { # CentOS 8 repositories don't include sphinxintl package which must be installed through pip. # To avoid its missing (system_info pyconf key doesn't handle this use case), we embed it. __condition__ : "VARS.dist in ['CO8']" 'APPLICATION.products.sphinxintl' : '0.9.10' 'PRODUCTS.sphinxintl.default.properties.pip' : "no" 'APPLICATION.products.cmake' : '3.12.1' } ]