From: eap Date: Fri, 10 Jul 2020 16:33:14 +0000 (+0300) Subject: Merge remote-tracking branch 'origin/V9_5_BR' X-Git-Tag: V9_6_0a1~18 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=d55dbe18f5a898be97fbc9cf66d189a1398bae0f;p=modules%2Fsmesh.git Merge remote-tracking branch 'origin/V9_5_BR' Conflicts: src/SMESH_I/SMESH_Mesh_i.cxx --- d55dbe18f5a898be97fbc9cf66d189a1398bae0f diff --cc src/SMESH_I/SMESH_Mesh_i.cxx index cf2a16ea6,470ca6587..9c00cb31e --- a/src/SMESH_I/SMESH_Mesh_i.cxx +++ b/src/SMESH_I/SMESH_Mesh_i.cxx @@@ -6752,84 -6750,82 +6752,86 @@@ TListOfListOfInt SMESH_Mesh_i::findConc { TListOfListOfInt anOrder; ::SMESH_Mesh& mesh = GetImpl(); - { - // collect submeshes and detect concurrent algorithms and hypothesises - TDimHypList dimHypListArr[4]; // dimHyp list for each shape dimension - - map::iterator i_sm = _mapSubMesh.begin(); - for ( ; i_sm != _mapSubMesh.end(); i_sm++ ) { - ::SMESH_subMesh* sm = (*i_sm).second; - // shape of submesh - const TopoDS_Shape& aSubMeshShape = sm->GetSubShape(); - - // list of assigned hypothesises - const list & hypList = mesh.GetHypothesisList(aSubMeshShape); - // Find out dimensions where the submesh can be concurrent. - // We define the dimensions by algo of each of hypotheses in hypList - list ::const_iterator hypIt = hypList.begin(); - for( ; hypIt != hypList.end(); hypIt++ ) { - SMESH_Algo* anAlgo = 0; - const SMESH_Hypothesis* hyp = dynamic_cast(*hypIt); - if ( hyp->GetType() != SMESHDS_Hypothesis::PARAM_ALGO ) - // hyp it-self is algo - anAlgo = (SMESH_Algo*)dynamic_cast(hyp); - else { - // try to find algorithm with help of sub-shapes - TopExp_Explorer anExp( aSubMeshShape, shapeTypeByDim(hyp->GetDim()) ); - for ( ; !anAlgo && anExp.More(); anExp.Next() ) - anAlgo = mesh.GetGen()->GetAlgo( mesh, anExp.Current() ); - } - if (!anAlgo) - continue; // no algorithm assigned to a current submesh - int dim = anAlgo->GetDim(); // top concurrent dimension (see comment to SMESH_DimHyp) - // the submesh can concurrent at (or lower dims if !anAlgo->NeedDiscreteBoundary() - // and !anAlgo->NeedLowerHyps( dim )) + // collect submeshes and detect concurrent algorithms and hypothesises + TDimHypList dimHypListArr[4]; // dimHyp list for each shape dimension - // create instance of dimension-hypothesis for found concurrent dimension(s) and algorithm - for ( int j = anAlgo->NeedDiscreteBoundary() ? dim : 1, jn = dim; j <= jn; j++ ) - addDimHypInstance( j, aSubMeshShape, anAlgo, sm, hypList, dimHypListArr ); + map::iterator i_sm = _mapSubMesh.begin(); - for ( ; i_sm != _mapSubMesh.end(); i_sm++ ) { ++ for ( ; i_sm != _mapSubMesh.end(); i_sm++ ) ++ { + ::SMESH_subMesh* sm = (*i_sm).second; + // shape of submesh + const TopoDS_Shape& aSubMeshShape = sm->GetSubShape(); + + // list of assigned hypothesises + const list & hypList = mesh.GetHypothesisList(aSubMeshShape); + // Find out dimensions where the submesh can be concurrent. + // We define the dimensions by algo of each of hypotheses in hypList + list ::const_iterator hypIt = hypList.begin(); - for( ; hypIt != hypList.end(); hypIt++ ) { ++ for( ; hypIt != hypList.end(); hypIt++ ) ++ { + SMESH_Algo* anAlgo = 0; + const SMESH_Hypothesis* hyp = dynamic_cast(*hypIt); + if ( hyp->GetType() != SMESHDS_Hypothesis::PARAM_ALGO ) + // hyp it-self is algo + anAlgo = (SMESH_Algo*)dynamic_cast(hyp); + else { + // try to find algorithm with help of sub-shapes + TopExp_Explorer anExp( aSubMeshShape, shapeTypeByDim(hyp->GetDim()) ); + for ( ; !anAlgo && anExp.More(); anExp.Next() ) + anAlgo = mesh.GetGen()->GetAlgo( mesh, anExp.Current() ); } - } // end iterations on submesh + if (!anAlgo) + continue; // no algorithm assigned to a current submesh + + int dim = anAlgo->GetDim(); // top concurrent dimension (see comment to SMESH_DimHyp) + // the submesh can concurrent at (or lower dims if !anAlgo->NeedDiscreteBoundary() + // and !anAlgo->NeedLowerHyps( dim )) + + // create instance of dimension-hypothesis for found concurrent dimension(s) and algorithm + for ( int j = anAlgo->NeedDiscreteBoundary() ? dim : 1, jn = dim; j <= jn; j++ ) + addDimHypInstance( j, aSubMeshShape, anAlgo, sm, hypList, dimHypListArr ); + } + } // end iterations on submesh // iterate on created dimension-hypotheses and check for concurrents - for ( int i = 0; i < 4; i++ ) { - const TDimHypList& listOfDimHyp = dimHypListArr[i]; - // check for concurrents in own and other dimensions (step-by-step) - TDimHypList::const_iterator dhIt = listOfDimHyp.begin(); - for ( ; dhIt != listOfDimHyp.end(); dhIt++ ) { - const SMESH_DimHyp* dimHyp = *dhIt; - TDimHypList listOfConcurr; - set setOfConcurrIds; - // looking for concurrents and collect into own list - for ( int j = i; j < 4; j++ ) - findConcurrents( dimHyp, dimHypListArr[j], listOfConcurr, setOfConcurrIds ); - // check if any concurrents found - if ( listOfConcurr.size() > 0 ) { - // add own submesh to list of concurrent - addInOrderOfPriority( dimHyp, listOfConcurr ); - list listOfConcurrIds; - TDimHypList::iterator hypIt = listOfConcurr.begin(); - for ( ; hypIt != listOfConcurr.end(); ++hypIt ) - listOfConcurrIds.push_back( (*hypIt)->_subMesh->GetId() ); - anOrder.push_back( listOfConcurrIds ); - } + for ( int i = 0; i < 4; i++ ) + { + const TDimHypList& listOfDimHyp = dimHypListArr[i]; + // check for concurrents in own and other dimensions (step-by-step) + TDimHypList::const_iterator dhIt = listOfDimHyp.begin(); + for ( ; dhIt != listOfDimHyp.end(); dhIt++ ) + { + const SMESH_DimHyp* dimHyp = *dhIt; + TDimHypList listOfConcurr; + set setOfConcurrIds; + // looking for concurrents and collect into own list + for ( int j = i; j < 4; j++ ) + findConcurrents( dimHyp, dimHypListArr[j], listOfConcurr, setOfConcurrIds ); + // check if any concurrents found + if ( listOfConcurr.size() > 0 ) + { + // add own submesh to list of concurrent + addInOrderOfPriority( dimHyp, listOfConcurr ); + list listOfConcurrIds; + TDimHypList::iterator hypIt = listOfConcurr.begin(); + for ( ; hypIt != listOfConcurr.end(); ++hypIt ) + listOfConcurrIds.push_back( (*hypIt)->_subMesh->GetId() ); + anOrder.push_back( listOfConcurrIds ); } } + } - removeDimHyps(dimHypListArr); + removeDimHyps(dimHypListArr); - // now, minimize the number of concurrent groups - // Here we assume that lists of submeshes can have same submesh - // in case of multi-dimension algorithms, as result - // list with common submesh has to be united into one list - int listIndx = 0; - TListOfListOfInt::iterator listIt = anOrder.begin(); - for(; listIt != anOrder.end(); listIt++, listIndx++ ) - unionLists( *listIt, anOrder, listIndx + 1 ); - } + // now, minimize the number of concurrent groups + // Here we assume that lists of submeshes can have same submesh + // in case of multi-dimension algorithms, as result + // list with common submesh has to be united into one list + int listIndx = 0; + TListOfListOfInt::iterator listIt = anOrder.begin(); + for(; listIt != anOrder.end(); listIt++, listIndx++ ) + unionLists( *listIt, anOrder, listIndx + 1 ); return anOrder; }