X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FSMESH%2FSMESH_MeshEditor.cxx;h=d21d4784c712103ba63f4ad84efb7e5d0b4af120;hp=89354777b3e7e56da1292df7cef902e61a5d68f6;hb=10363c830c5bc84c9a9a5d3378eeef687297d119;hpb=8a7fc527d73e7f87516719b773fce5484104c7bd diff --git a/src/SMESH/SMESH_MeshEditor.cxx b/src/SMESH/SMESH_MeshEditor.cxx index 89354777b..d21d4784c 100644 --- a/src/SMESH/SMESH_MeshEditor.cxx +++ b/src/SMESH/SMESH_MeshEditor.cxx @@ -1,4 +1,4 @@ -// Copyright (C) 2007-2008 CEA/DEN, EDF R&D, OPEN CASCADE +// Copyright (C) 2007-2010 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS @@ -19,11 +19,13 @@ // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // + // SMESH SMESH : idl implementation based on 'SMESH' unit's classes // File : SMESH_MeshEditor.cxx // Created : Mon Apr 12 16:10:22 2004 // Author : Edward AGAPOV (eap) // +#define CHRONODEF #include "SMESH_MeshEditor.hxx" #include "SMDS_FaceOfNodes.hxx" @@ -32,29 +34,40 @@ #include "SMDS_PolyhedralVolumeOfNodes.hxx" #include "SMDS_FacePosition.hxx" #include "SMDS_SpacePosition.hxx" -#include "SMDS_QuadraticFaceOfNodes.hxx" +//#include "SMDS_QuadraticFaceOfNodes.hxx" #include "SMDS_MeshGroup.hxx" +#include "SMDS_LinearEdge.hxx" +#include "SMDS_Downward.hxx" +#include "SMDS_SetIterator.hxx" #include "SMESHDS_Group.hxx" #include "SMESHDS_Mesh.hxx" -#include "SMESH_subMesh.hxx" +#include "SMESH_Algo.hxx" #include "SMESH_ControlsDef.hxx" +#include "SMESH_Group.hxx" #include "SMESH_MesherHelper.hxx" #include "SMESH_OctreeNode.hxx" -#include "SMESH_Group.hxx" +#include "SMESH_subMesh.hxx" #include "utilities.h" -#include +#include #include +#include #include #include +#include #include +#include #include +#include #include #include +#include #include +#include +#include #include #include #include @@ -74,10 +87,13 @@ #include #include #include + #include #include #include +#include +#include #define cast2Node(elem) static_cast( elem ) @@ -86,13 +102,8 @@ using namespace SMESH::Controls; typedef map > TElemOfNodeListMap; typedef map > TElemOfElemListMap; -//typedef map > TNodeOfNodeVecMap; -//typedef TNodeOfNodeVecMap::iterator TNodeOfNodeVecMapItr; -//typedef map > TElemOfVecOfMapNodesMap; -struct TNodeXYZ : public gp_XYZ { - TNodeXYZ( const SMDS_MeshNode* n ):gp_XYZ( n->X(), n->Y(), n->Z() ) {} -}; +typedef SMDS_SetIterator< SMDS_pElement, TIDSortedElemSet::const_iterator> TSetIterator; //======================================================================= //function : SMESH_MeshEditor @@ -116,99 +127,132 @@ SMESH_MeshEditor::AddElement(const vector & node, const bool isPoly, const int ID) { + //MESSAGE("AddElement " <AddEdgeWithID(node[0], node[1], ID); - else e = mesh->AddEdge (node[0], node[1] ); - else if ( nbnode == 3 ) - if ( ID ) e = mesh->AddEdgeWithID(node[0], node[1], node[2], ID); - else e = mesh->AddEdge (node[0], node[1], node[2] ); - break; case SMDSAbs_Face: if ( !isPoly ) { - if (nbnode == 3) - if ( ID ) e = mesh->AddFaceWithID(node[0], node[1], node[2], ID); - else e = mesh->AddFace (node[0], node[1], node[2] ); - else if (nbnode == 4) - if ( ID ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], ID); - else e = mesh->AddFace (node[0], node[1], node[2], node[3] ); - else if (nbnode == 6) - if ( ID ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], - node[4], node[5], ID); - else e = mesh->AddFace (node[0], node[1], node[2], node[3], - node[4], node[5] ); - else if (nbnode == 8) - if ( ID ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], ID); - else e = mesh->AddFace (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7] ); + if (nbnode == 3) { + if ( ID >= 0 ) e = mesh->AddFaceWithID(node[0], node[1], node[2], ID); + else e = mesh->AddFace (node[0], node[1], node[2] ); + } + else if (nbnode == 4) { + if ( ID >= 0 ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], ID); + else e = mesh->AddFace (node[0], node[1], node[2], node[3] ); + } + else if (nbnode == 6) { + if ( ID >= 0 ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], + node[4], node[5], ID); + else e = mesh->AddFace (node[0], node[1], node[2], node[3], + node[4], node[5] ); + } + else if (nbnode == 8) { + if ( ID >= 0 ) e = mesh->AddFaceWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], ID); + else e = mesh->AddFace (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7] ); + } } else { - if ( ID ) e = mesh->AddPolygonalFaceWithID(node, ID); - else e = mesh->AddPolygonalFace (node ); + if ( ID >= 0 ) e = mesh->AddPolygonalFaceWithID(node, ID); + else e = mesh->AddPolygonalFace (node ); } break; + case SMDSAbs_Volume: if ( !isPoly ) { - if (nbnode == 4) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3] ); - else if (nbnode == 5) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4] ); - else if (nbnode == 6) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5] ); - else if (nbnode == 8) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7] ); - else if (nbnode == 10) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9] ); - else if (nbnode == 13) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12],ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12] ); - else if (nbnode == 15) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12],node[13],node[14],ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12],node[13],node[14] ); - else if (nbnode == 20) - if ( ID ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12],node[13],node[14],node[15], - node[16],node[17],node[18],node[19],ID); - else e = mesh->AddVolume (node[0], node[1], node[2], node[3], - node[4], node[5], node[6], node[7], - node[8], node[9], node[10],node[11], - node[12],node[13],node[14],node[15], - node[16],node[17],node[18],node[19] ); + if (nbnode == 4) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3] ); + } + else if (nbnode == 5) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4] ); + } + else if (nbnode == 6) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5] ); + } + else if (nbnode == 8) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7] ); + } + else if (nbnode == 10) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9] ); + } + else if (nbnode == 13) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12],ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12] ); + } + else if (nbnode == 15) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12],node[13],node[14],ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12],node[13],node[14] ); + } + else if (nbnode == 20) { + if ( ID >= 0 ) e = mesh->AddVolumeWithID(node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12],node[13],node[14],node[15], + node[16],node[17],node[18],node[19],ID); + else e = mesh->AddVolume (node[0], node[1], node[2], node[3], + node[4], node[5], node[6], node[7], + node[8], node[9], node[10],node[11], + node[12],node[13],node[14],node[15], + node[16],node[17],node[18],node[19] ); + } + } + break; + + case SMDSAbs_Edge: + if ( nbnode == 2 ) { + if ( ID >= 0 ) e = mesh->AddEdgeWithID(node[0], node[1], ID); + else e = mesh->AddEdge (node[0], node[1] ); + } + else if ( nbnode == 3 ) { + if ( ID >= 0 ) e = mesh->AddEdgeWithID(node[0], node[1], node[2], ID); + else e = mesh->AddEdge (node[0], node[1], node[2] ); + } + break; + + case SMDSAbs_0DElement: + if ( nbnode == 1 ) { + if ( ID >= 0 ) e = mesh->Add0DElementWithID(node[0], ID); + else e = mesh->Add0DElement (node[0] ); } + break; + + case SMDSAbs_Node: + if ( ID >= 0 ) e = mesh->AddNodeWithID(node[0]->X(), node[0]->Y(), node[0]->Z(), ID); + else e = mesh->AddNode (node[0]->X(), node[0]->Y(), node[0]->Z()); + break; + + default:; } + if ( e ) myLastCreatedElems.Append( e ); return e; } @@ -241,8 +285,8 @@ SMDS_MeshElement* SMESH_MeshEditor::AddElement(const vector & nodeIDs // Modify a compute state of sub-meshes which become empty //======================================================================= -bool SMESH_MeshEditor::Remove (const list< int >& theIDs, - const bool isNodes ) +int SMESH_MeshEditor::Remove (const list< int >& theIDs, + const bool isNodes ) { myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -250,6 +294,7 @@ bool SMESH_MeshEditor::Remove (const list< int >& theIDs, SMESHDS_Mesh* aMesh = GetMeshDS(); set< SMESH_subMesh *> smmap; + int removed = 0; list::const_iterator it = theIDs.begin(); for ( ; it != theIDs.end(); it++ ) { const SMDS_MeshElement * elem; @@ -264,28 +309,29 @@ bool SMESH_MeshEditor::Remove (const list< int >& theIDs, if ( isNodes ) { const SMDS_MeshNode* node = cast2Node( elem ); if ( node->GetPosition()->GetTypeOfPosition() == SMDS_TOP_VERTEX ) - if ( int aShapeID = node->GetPosition()->GetShapeId() ) + if ( int aShapeID = node->getshapeId() ) if ( SMESH_subMesh * sm = GetMesh()->GetSubMeshContaining( aShapeID ) ) smmap.insert( sm ); } // Find sub-meshes to notify about modification -// SMDS_ElemIteratorPtr nodeIt = elem->nodesIterator(); -// while ( nodeIt->more() ) { -// const SMDS_MeshNode* node = static_cast( nodeIt->next() ); -// const SMDS_PositionPtr& aPosition = node->GetPosition(); -// if ( aPosition.get() ) { -// if ( int aShapeID = aPosition->GetShapeId() ) { -// if ( SMESH_subMesh * sm = GetMesh()->GetSubMeshContaining( aShapeID ) ) -// smmap.insert( sm ); -// } -// } -// } + // SMDS_ElemIteratorPtr nodeIt = elem->nodesIterator(); + // while ( nodeIt->more() ) { + // const SMDS_MeshNode* node = static_cast( nodeIt->next() ); + // const SMDS_PositionPtr& aPosition = node->GetPosition(); + // if ( aPosition.get() ) { + // if ( int aShapeID = aPosition->GetShapeId() ) { + // if ( SMESH_subMesh * sm = GetMesh()->GetSubMeshContaining( aShapeID ) ) + // smmap.insert( sm ); + // } + // } + // } // Do remove if ( isNodes ) aMesh->RemoveNode( static_cast< const SMDS_MeshNode* >( elem )); else aMesh->RemoveElement( elem ); + removed++; } // Notify sub-meshes about modification @@ -295,11 +341,11 @@ bool SMESH_MeshEditor::Remove (const list< int >& theIDs, (*smIt)->ComputeStateEngine( SMESH_subMesh::MESH_ENTITY_REMOVED ); } -// // Check if the whole mesh becomes empty -// if ( SMESH_subMesh * sm = GetMesh()->GetSubMeshContaining( 1 ) ) -// sm->ComputeStateEngine( SMESH_subMesh::CHECK_COMPUTE_STATE ); + // // Check if the whole mesh becomes empty + // if ( SMESH_subMesh * sm = GetMesh()->GetSubMeshContaining( 1 ) ) + // sm->ComputeStateEngine( SMESH_subMesh::CHECK_COMPUTE_STATE ); - return true; + return removed; } //======================================================================= @@ -317,22 +363,21 @@ int SMESH_MeshEditor::FindShape (const SMDS_MeshElement * theElem) if ( aMesh->ShapeToMesh().IsNull() ) return 0; - if ( theElem->GetType() == SMDSAbs_Node ) { - const SMDS_PositionPtr& aPosition = - static_cast( theElem )->GetPosition(); - if ( aPosition.get() ) - return aPosition->GetShapeId(); - else - return 0; - } + if ( theElem->GetType() == SMDSAbs_Node ) + { + int aShapeID = theElem->getshapeId(); + if (aShapeID <= 0) + return 0; + else + return aShapeID; + } TopoDS_Shape aShape; // the shape a node is on SMDS_ElemIteratorPtr nodeIt = theElem->nodesIterator(); while ( nodeIt->more() ) { const SMDS_MeshNode* node = static_cast( nodeIt->next() ); - const SMDS_PositionPtr& aPosition = node->GetPosition(); - if ( aPosition.get() ) { - int aShapeID = aPosition->GetShapeId(); + int aShapeID = node->getshapeId(); + if (aShapeID > 0) { SMESHDS_SubMesh * sm = aMesh->MeshElements( aShapeID ); if ( sm ) { if ( sm->Contains( theElem )) @@ -463,15 +508,19 @@ static bool GetNodesFromTwoTria(const SMDS_MeshElement * theTria1, bool SMESH_MeshEditor::InverseDiag (const SMDS_MeshElement * theTria1, const SMDS_MeshElement * theTria2 ) { + MESSAGE("InverseDiag"); myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); if (!theTria1 || !theTria2) return false; - const SMDS_FaceOfNodes* F1 = dynamic_cast( theTria1 ); - const SMDS_FaceOfNodes* F2 = dynamic_cast( theTria2 ); - if (F1 && F2) { + const SMDS_VtkFace* F1 = dynamic_cast( theTria1 ); + if (!F1) return false; + const SMDS_VtkFace* F2 = dynamic_cast( theTria2 ); + if (!F2) return false; + if ((theTria1->GetEntityType() == SMDSEntity_Triangle) && + (theTria2->GetEntityType() == SMDSEntity_Triangle)) { // 1 +--+ A theTria1: ( 1 A B ) A->2 ( 1 2 B ) 1 +--+ A // | /| theTria2: ( B A 2 ) B->1 ( 1 A 2 ) |\ | @@ -508,12 +557,14 @@ bool SMESH_MeshEditor::InverseDiag (const SMDS_MeshElement * theTria1, // find indices of 1,2 and of A,B in theTria1 int iA = 0, iB = 0, i1 = 0, i2 = 0; for ( i = 0; i < 6; i++ ) { - if ( sameInd [ i ] == 0 ) + if ( sameInd [ i ] == 0 ) { if ( i < 3 ) i1 = i; else i2 = i; - else if (i < 3) + } + else if (i < 3) { if ( iA ) iB = i; else iA = i; + } } // nodes 1 and 2 should not be the same if ( aNodes[ i1 ] == aNodes[ i2 ] ) @@ -524,24 +575,18 @@ bool SMESH_MeshEditor::InverseDiag (const SMDS_MeshElement * theTria1, // theTria2: B->1 aNodes[ sameInd[ iB ]] = aNodes[ i1 ]; - //MESSAGE( theTria1 << theTria2 ); - GetMeshDS()->ChangeElementNodes( theTria1, aNodes, 3 ); GetMeshDS()->ChangeElementNodes( theTria2, &aNodes[ 3 ], 3 ); - //MESSAGE( theTria1 << theTria2 ); - return true; } // end if(F1 && F2) // check case of quadratic faces - const SMDS_QuadraticFaceOfNodes* QF1 = - dynamic_cast (theTria1); - if(!QF1) return false; - const SMDS_QuadraticFaceOfNodes* QF2 = - dynamic_cast (theTria2); - if(!QF2) return false; + if (theTria1->GetEntityType() != SMDSEntity_Quad_Triangle) + return false; + if (theTria2->GetEntityType() != SMDSEntity_Quad_Triangle) + return false; // 5 // 1 +--+--+ 2 theTria1: (1 2 4 5 9 7) or (2 4 1 9 7 5) or (4 1 2 7 5 9) @@ -606,7 +651,7 @@ static bool findTriangles(const SMDS_MeshNode * theNode1, it = theNode2->GetInverseElementIterator(SMDSAbs_Face); while (it->more()) { const SMDS_MeshElement* elem = it->next(); - if ( emap.find( elem ) != emap.end() ) + if ( emap.find( elem ) != emap.end() ) { if ( theTria1 ) { // theTria1 must be element with minimum ID if( theTria1->GetID() < elem->GetID() ) { @@ -621,6 +666,7 @@ static bool findTriangles(const SMDS_MeshNode * theNode1, else { theTria1 = elem; } + } } return ( theTria1 && theTria2 ); } @@ -644,11 +690,12 @@ bool SMESH_MeshEditor::InverseDiag (const SMDS_MeshNode * theNode1, if ( !findTriangles( theNode1, theNode2, tr1, tr2 )) return false; - const SMDS_FaceOfNodes* F1 = dynamic_cast( tr1 ); - //if (!F1) return false; - const SMDS_FaceOfNodes* F2 = dynamic_cast( tr2 ); - //if (!F2) return false; - if (F1 && F2) { + const SMDS_VtkFace* F1 = dynamic_cast( tr1 ); + if (!F1) return false; + const SMDS_VtkFace* F2 = dynamic_cast( tr2 ); + if (!F2) return false; + if ((tr1->GetEntityType() == SMDSEntity_Triangle) && + (tr2->GetEntityType() == SMDSEntity_Triangle)) { // 1 +--+ A tr1: ( 1 A B ) A->2 ( 1 2 B ) 1 +--+ A // | /| tr2: ( B A 2 ) B->1 ( 1 A 2 ) |\ | @@ -686,23 +733,13 @@ bool SMESH_MeshEditor::InverseDiag (const SMDS_MeshNode * theNode1, // tr2: B->1 aNodes2[ iB2 ] = aNodes1[ i1 ]; - //MESSAGE( tr1 << tr2 ); - GetMeshDS()->ChangeElementNodes( tr1, aNodes1, 3 ); GetMeshDS()->ChangeElementNodes( tr2, aNodes2, 3 ); - //MESSAGE( tr1 << tr2 ); - return true; } // check case of quadratic faces - const SMDS_QuadraticFaceOfNodes* QF1 = - dynamic_cast (tr1); - if(!QF1) return false; - const SMDS_QuadraticFaceOfNodes* QF2 = - dynamic_cast (tr2); - if(!QF2) return false; return InverseDiag(tr1,tr2); } @@ -776,34 +813,39 @@ bool SMESH_MeshEditor::DeleteDiag (const SMDS_MeshNode * theNode1, if ( !findTriangles( theNode1, theNode2, tr1, tr2 )) return false; - const SMDS_FaceOfNodes* F1 = dynamic_cast( tr1 ); - //if (!F1) return false; - const SMDS_FaceOfNodes* F2 = dynamic_cast( tr2 ); - //if (!F2) return false; - if (F1 && F2) { + const SMDS_VtkFace* F1 = dynamic_cast( tr1 ); + if (!F1) return false; + const SMDS_VtkFace* F2 = dynamic_cast( tr2 ); + if (!F2) return false; + SMESHDS_Mesh * aMesh = GetMeshDS(); + + if ((tr1->GetEntityType() == SMDSEntity_Triangle) && + (tr2->GetEntityType() == SMDSEntity_Triangle)) { const SMDS_MeshNode* aNodes [ 4 ]; if ( ! getQuadrangleNodes( aNodes, theNode1, theNode2, tr1, tr2 )) return false; - //MESSAGE( endl << tr1 << tr2 ); - - GetMeshDS()->ChangeElementNodes( tr1, aNodes, 4 ); - myLastCreatedElems.Append(tr1); - GetMeshDS()->RemoveElement( tr2 ); - - //MESSAGE( endl << tr1 ); + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace( aNodes[0], aNodes[1], aNodes[2], aNodes[3] ); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr2 ); return true; } // check case of quadratic faces - const SMDS_QuadraticFaceOfNodes* QF1 = - dynamic_cast (tr1); - if(!QF1) return false; - const SMDS_QuadraticFaceOfNodes* QF2 = - dynamic_cast (tr2); - if(!QF2) return false; + if (tr1->GetEntityType() != SMDSEntity_Quad_Triangle) + return false; + if (tr2->GetEntityType() != SMDSEntity_Quad_Triangle) + return false; // 5 // 1 +--+--+ 2 tr1: (1 2 4 5 9 7) or (2 4 1 9 7 5) or (4 1 2 7 5 9) @@ -833,9 +875,18 @@ bool SMESH_MeshEditor::DeleteDiag (const SMDS_MeshNode * theNode1, aNodes[6] = N2[3]; aNodes[7] = N1[5]; - GetMeshDS()->ChangeElementNodes( tr1, aNodes, 8 ); - myLastCreatedElems.Append(tr1); - GetMeshDS()->RemoveElement( tr2 ); + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace( aNodes[0], aNodes[1], aNodes[2], aNodes[3], + aNodes[4], aNodes[5], aNodes[6], aNodes[7]); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr2 ); // remove middle node (9) GetMeshDS()->RemoveNode( N1[4] ); @@ -850,6 +901,7 @@ bool SMESH_MeshEditor::DeleteDiag (const SMDS_MeshNode * theNode1, bool SMESH_MeshEditor::Reorient (const SMDS_MeshElement * theElem) { + MESSAGE("Reorient"); myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -896,8 +948,10 @@ bool SMESH_MeshEditor::Reorient (const SMDS_MeshElement * theElem) } case SMDSAbs_Volume: { if (theElem->IsPoly()) { - const SMDS_PolyhedralVolumeOfNodes* aPolyedre = - static_cast( theElem ); + // TODO reorient vtk polyhedron + MESSAGE("reorient vtk polyhedron ?"); + const SMDS_VtkVolume* aPolyedre = + dynamic_cast( theElem ); if (!aPolyedre) { MESSAGE("Warning: bad volumic element"); return false; @@ -926,6 +980,7 @@ bool SMESH_MeshEditor::Reorient (const SMDS_MeshElement * theElem) if ( !vTool.Set( theElem )) return false; vTool.Inverse(); + MESSAGE("ChangeElementNodes reorient: check vTool.Inverse"); return GetMeshDS()->ChangeElementNodes( theElem, vTool.GetNodes(), vTool.NbNodes() ); } } @@ -998,21 +1053,21 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, aBadRate2 = getBadRate( &tr3, theCrit ) + getBadRate( &tr4, theCrit ); int aShapeId = FindShape( elem ); - const SMDS_MeshElement* newElem = 0; + const SMDS_MeshElement* newElem1 = 0; + const SMDS_MeshElement* newElem2 = 0; if( !elem->IsQuadratic() ) { // split liner quadrangle - if ( aBadRate1 <= aBadRate2 ) { // tr1 + tr2 is better - aMesh->ChangeElementNodes( elem, aNodes, 3 ); - newElem = aMesh->AddFace( aNodes[2], aNodes[3], aNodes[0] ); + newElem1 = aMesh->AddFace( aNodes[2], aNodes[3], aNodes[0] ); + newElem2 = aMesh->AddFace( aNodes[2], aNodes[0], aNodes[1] ); } else { // tr3 + tr4 is better - aMesh->ChangeElementNodes( elem, &aNodes[1], 3 ); - newElem = aMesh->AddFace( aNodes[3], aNodes[0], aNodes[1] ); + newElem1 = aMesh->AddFace( aNodes[3], aNodes[0], aNodes[1] ); + newElem2 = aMesh->AddFace( aNodes[3], aNodes[1], aNodes[2] ); } } else { @@ -1073,8 +1128,10 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, N[3] = aNodes[4]; N[4] = aNodes[5]; N[5] = newN; - newElem = aMesh->AddFace(aNodes[2], aNodes[3], aNodes[0], - aNodes[6], aNodes[7], newN ); + newElem1 = aMesh->AddFace(aNodes[2], aNodes[3], aNodes[0], + aNodes[6], aNodes[7], newN ); + newElem2 = aMesh->AddFace(aNodes[2], aNodes[0], aNodes[1], + newN, aNodes[4], aNodes[5] ); } else { N[0] = aNodes[1]; @@ -1083,21 +1140,27 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, N[3] = aNodes[5]; N[4] = aNodes[6]; N[5] = newN; - newElem = aMesh->AddFace(aNodes[3], aNodes[0], aNodes[1], - aNodes[7], aNodes[4], newN ); + newElem1 = aMesh->AddFace(aNodes[3], aNodes[0], aNodes[1], + aNodes[7], aNodes[4], newN ); + newElem2 = aMesh->AddFace(aNodes[3], aNodes[1], aNodes[2], + newN, aNodes[5], aNodes[6] ); } - aMesh->ChangeElementNodes( elem, N, 6 ); - } // quadratic case // care of a new element - myLastCreatedElems.Append(newElem); - AddToSameGroups( newElem, elem, aMesh ); + myLastCreatedElems.Append(newElem1); + myLastCreatedElems.Append(newElem2); + AddToSameGroups( newElem1, elem, aMesh ); + AddToSameGroups( newElem2, elem, aMesh ); // put a new triangle on the same shape if ( aShapeId ) - aMesh->SetMeshElementOnShape( newElem, aShapeId ); + { + aMesh->SetMeshElementOnShape( newElem1, aShapeId ); + aMesh->SetMeshElementOnShape( newElem2, aShapeId ); + } + aMesh->RemoveElement( elem ); } return true; } @@ -1106,6 +1169,7 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, //function : BestSplit //purpose : Find better diagonal for cutting. //======================================================================= + int SMESH_MeshEditor::BestSplit (const SMDS_MeshElement* theQuad, SMESH::Controls::NumericalFunctorPtr theCrit) { @@ -1147,6 +1211,542 @@ int SMESH_MeshEditor::BestSplit (const SMDS_MeshElement* theQuad, return -1; } +namespace +{ + // Methods of splitting volumes into tetra + + const int theHexTo5_1[5*4+1] = + { + 0, 1, 2, 5, 0, 4, 5, 7, 0, 2, 3, 7, 2, 5, 6, 7, 0, 5, 2, 7, -1 + }; + const int theHexTo5_2[5*4+1] = + { + 1, 2, 3, 6, 1, 4, 5, 6, 0, 1, 3, 4, 3, 4, 6, 7, 1, 3, 4, 6, -1 + }; + const int* theHexTo5[2] = { theHexTo5_1, theHexTo5_2 }; + + const int theHexTo6_1[6*4+1] = + { + 1, 5, 6, 0, 0, 1, 2, 6, 0, 4, 5, 6, 0, 4, 6, 7, 0, 2, 3, 6, 0, 3, 7, 6, -1 + }; + const int theHexTo6_2[6*4+1] = + { + 2, 6, 7, 1, 1, 2, 3, 7, 1, 5, 6, 7, 1, 5, 7, 4, 1, 3, 0, 7, 1, 0, 4, 7, -1 + }; + const int theHexTo6_3[6*4+1] = + { + 3, 7, 4, 2, 2, 3, 0, 4, 2, 6, 7, 4, 2, 6, 4, 5, 2, 0, 1, 4, 2, 1, 5, 4, -1 + }; + const int theHexTo6_4[6*4+1] = + { + 0, 4, 5, 3, 3, 0, 1, 5, 3, 7, 4, 5, 3, 7, 5, 6, 3, 1, 2, 5, 3, 2, 6, 5, -1 + }; + const int* theHexTo6[4] = { theHexTo6_1, theHexTo6_2, theHexTo6_3, theHexTo6_4 }; + + const int thePyraTo2_1[2*4+1] = + { + 0, 1, 2, 4, 0, 2, 3, 4, -1 + }; + const int thePyraTo2_2[2*4+1] = + { + 1, 2, 3, 4, 1, 3, 0, 4, -1 + }; + const int* thePyraTo2[2] = { thePyraTo2_1, thePyraTo2_2 }; + + const int thePentaTo3_1[3*4+1] = + { + 0, 1, 2, 3, 1, 3, 4, 2, 2, 3, 4, 5, -1 + }; + const int thePentaTo3_2[3*4+1] = + { + 1, 2, 0, 4, 2, 4, 5, 0, 0, 4, 5, 3, -1 + }; + const int thePentaTo3_3[3*4+1] = + { + 2, 0, 1, 5, 0, 5, 3, 1, 1, 5, 3, 4, -1 + }; + const int thePentaTo3_4[3*4+1] = + { + 0, 1, 2, 3, 1, 3, 4, 5, 2, 3, 1, 5, -1 + }; + const int thePentaTo3_5[3*4+1] = + { + 1, 2, 0, 4, 2, 4, 5, 3, 0, 4, 2, 3, -1 + }; + const int thePentaTo3_6[3*4+1] = + { + 2, 0, 1, 5, 0, 5, 3, 4, 1, 5, 0, 4, -1 + }; + const int* thePentaTo3[6] = { thePentaTo3_1, thePentaTo3_2, thePentaTo3_3, + thePentaTo3_4, thePentaTo3_5, thePentaTo3_6 }; + + struct TTriangleFacet //!< stores indices of three nodes of tetra facet + { + int _n1, _n2, _n3; + TTriangleFacet(int n1, int n2, int n3): _n1(n1), _n2(n2), _n3(n3) {} + bool contains(int n) const { return ( n == _n1 || n == _n2 || n == _n3 ); } + bool hasAdjacentTetra( const SMDS_MeshElement* elem ) const; + }; + struct TSplitMethod + { + int _nbTetra; + const int* _connectivity; //!< foursomes of tetra connectivy finished by -1 + bool _baryNode; //!< additional node is to be created at cell barycenter + bool _ownConn; //!< to delete _connectivity in destructor + map _faceBaryNode; //!< map face index to node at BC of face + + TSplitMethod( int nbTet=0, const int* conn=0, bool addNode=false) + : _nbTetra(nbTet), _connectivity(conn), _baryNode(addNode), _ownConn(false) {} + ~TSplitMethod() { if ( _ownConn ) delete [] _connectivity; _connectivity = 0; } + bool hasFacet( const TTriangleFacet& facet ) const + { + const int* tetConn = _connectivity; + for ( ; tetConn[0] >= 0; tetConn += 4 ) + if (( facet.contains( tetConn[0] ) + + facet.contains( tetConn[1] ) + + facet.contains( tetConn[2] ) + + facet.contains( tetConn[3] )) == 3 ) + return true; + return false; + } + }; + + //======================================================================= + /*! + * \brief return TSplitMethod for the given element + */ + //======================================================================= + + TSplitMethod getSplitMethod( SMDS_VolumeTool& vol, const int theMethodFlags) + { + const int iQ = vol.Element()->IsQuadratic() ? 2 : 1; + + // at HEXA_TO_24 method, each face of volume is split into triangles each based on + // an edge and a face barycenter; tertaherdons are based on triangles and + // a volume barycenter + const bool is24TetMode = ( theMethodFlags == SMESH_MeshEditor::HEXA_TO_24 ); + + // Find out how adjacent volumes are split + + vector < list< TTriangleFacet > > triaSplitsByFace( vol.NbFaces() ); // splits of each side + int hasAdjacentSplits = 0, maxTetConnSize = 0; + for ( int iF = 0; iF < vol.NbFaces(); ++iF ) + { + int nbNodes = vol.NbFaceNodes( iF ) / iQ; + maxTetConnSize += 4 * ( nbNodes - (is24TetMode ? 0 : 2)); + if ( nbNodes < 4 ) continue; + + list< TTriangleFacet >& triaSplits = triaSplitsByFace[ iF ]; + const int* nInd = vol.GetFaceNodesIndices( iF ); + if ( nbNodes == 4 ) + { + TTriangleFacet t012( nInd[0*iQ], nInd[1*iQ], nInd[2*iQ] ); + TTriangleFacet t123( nInd[1*iQ], nInd[2*iQ], nInd[3*iQ] ); + if ( t012.hasAdjacentTetra( vol.Element() )) triaSplits.push_back( t012 ); + else if ( t123.hasAdjacentTetra( vol.Element() )) triaSplits.push_back( t123 ); + } + else + { + int iCom = 0; // common node of triangle faces to split into + for ( int iVar = 0; iVar < nbNodes; ++iVar, ++iCom ) + { + TTriangleFacet t012( nInd[ iQ * ( iCom )], + nInd[ iQ * ( (iCom+1)%nbNodes )], + nInd[ iQ * ( (iCom+2)%nbNodes )]); + TTriangleFacet t023( nInd[ iQ * ( iCom )], + nInd[ iQ * ( (iCom+2)%nbNodes )], + nInd[ iQ * ( (iCom+3)%nbNodes )]); + if ( t012.hasAdjacentTetra( vol.Element() ) && t023.hasAdjacentTetra( vol.Element() )) + { + triaSplits.push_back( t012 ); + triaSplits.push_back( t023 ); + break; + } + } + } + if ( !triaSplits.empty() ) + hasAdjacentSplits = true; + } + + // Among variants of split method select one compliant with adjacent volumes + + TSplitMethod method; + if ( !vol.Element()->IsPoly() && !is24TetMode ) + { + int nbVariants = 2, nbTet = 0; + const int** connVariants = 0; + switch ( vol.Element()->GetEntityType() ) + { + case SMDSEntity_Hexa: + case SMDSEntity_Quad_Hexa: + if ( theMethodFlags == SMESH_MeshEditor::HEXA_TO_5 ) + connVariants = theHexTo5, nbTet = 5; + else + connVariants = theHexTo6, nbTet = 6, nbVariants = 4; + break; + case SMDSEntity_Pyramid: + case SMDSEntity_Quad_Pyramid: + connVariants = thePyraTo2; nbTet = 2; + break; + case SMDSEntity_Penta: + case SMDSEntity_Quad_Penta: + connVariants = thePentaTo3; nbTet = 3; nbVariants = 6; + break; + default: + nbVariants = 0; + } + for ( int variant = 0; variant < nbVariants && method._nbTetra == 0; ++variant ) + { + // check method compliancy with adjacent tetras, + // all found splits must be among facets of tetras described by this method + method = TSplitMethod( nbTet, connVariants[variant] ); + if ( hasAdjacentSplits && method._nbTetra > 0 ) + { + bool facetCreated = true; + for ( int iF = 0; facetCreated && iF < triaSplitsByFace.size(); ++iF ) + { + list< TTriangleFacet >::const_iterator facet = triaSplitsByFace[iF].begin(); + for ( ; facetCreated && facet != triaSplitsByFace[iF].end(); ++facet ) + facetCreated = method.hasFacet( *facet ); + } + if ( !facetCreated ) + method = TSplitMethod(0); // incompatible method + } + } + } + if ( method._nbTetra < 1 ) + { + // No standard method is applicable, use a generic solution: + // each facet of a volume is split into triangles and + // each of triangles and a volume barycenter form a tetrahedron. + + int* connectivity = new int[ maxTetConnSize + 1 ]; + method._connectivity = connectivity; + method._ownConn = true; + method._baryNode = true; + + int connSize = 0; + int baryCenInd = vol.NbNodes(); + for ( int iF = 0; iF < vol.NbFaces(); ++iF ) + { + const int nbNodes = vol.NbFaceNodes( iF ) / iQ; + const int* nInd = vol.GetFaceNodesIndices( iF ); + // find common node of triangle facets of tetra to create + int iCommon = 0; // index in linear numeration + const list< TTriangleFacet >& triaSplits = triaSplitsByFace[ iF ]; + if ( !triaSplits.empty() ) + { + // by found facets + const TTriangleFacet* facet = &triaSplits.front(); + for ( ; iCommon < nbNodes-1 ; ++iCommon ) + if ( facet->contains( nInd[ iQ * iCommon ]) && + facet->contains( nInd[ iQ * ((iCommon+2)%nbNodes) ])) + break; + } + else if ( nbNodes > 3 && !is24TetMode ) + { + // find the best method of splitting into triangles by aspect ratio + SMESH::Controls::NumericalFunctorPtr aspectRatio( new SMESH::Controls::AspectRatio); + map< double, int > badness2iCommon; + const SMDS_MeshNode** nodes = vol.GetFaceNodes( iF ); + int nbVariants = ( nbNodes == 4 ? 2 : nbNodes ); + for ( int iVar = 0; iVar < nbVariants; ++iVar, ++iCommon ) + for ( int iLast = iCommon+2; iLast < iCommon+nbNodes; ++iLast ) + { + SMDS_FaceOfNodes tria ( nodes[ iQ*( iCommon )], + nodes[ iQ*((iLast-1)%nbNodes)], + nodes[ iQ*((iLast )%nbNodes)]); + double badness = getBadRate( &tria, aspectRatio ); + badness2iCommon.insert( make_pair( badness, iCommon )); + } + // use iCommon with lowest badness + iCommon = badness2iCommon.begin()->second; + } + if ( iCommon >= nbNodes ) + iCommon = 0; // something wrong + + // fill connectivity of tetrahedra based on a current face + int nbTet = nbNodes - 2; + if ( is24TetMode && nbNodes > 3 && triaSplits.empty()) + { + method._faceBaryNode.insert( make_pair( iF, (const SMDS_MeshNode*)0 )); + int faceBaryCenInd = baryCenInd + method._faceBaryNode.size(); + nbTet = nbNodes; + for ( int i = 0; i < nbTet; ++i ) + { + int i1 = i, i2 = (i+1) % nbNodes; + if ( !vol.IsFaceExternal( iF )) swap( i1, i2 ); + connectivity[ connSize++ ] = nInd[ iQ * i1 ]; + connectivity[ connSize++ ] = nInd[ iQ * i2 ]; + connectivity[ connSize++ ] = faceBaryCenInd; + connectivity[ connSize++ ] = baryCenInd; + } + } + else + { + for ( int i = 0; i < nbTet; ++i ) + { + int i1 = (iCommon+1+i) % nbNodes, i2 = (iCommon+2+i) % nbNodes; + if ( !vol.IsFaceExternal( iF )) swap( i1, i2 ); + connectivity[ connSize++ ] = nInd[ iQ * iCommon ]; + connectivity[ connSize++ ] = nInd[ iQ * i1 ]; + connectivity[ connSize++ ] = nInd[ iQ * i2 ]; + connectivity[ connSize++ ] = baryCenInd; + } + } + method._nbTetra += nbTet; + } + connectivity[ connSize++ ] = -1; + } + return method; + } + //================================================================================ + /*! + * \brief Check if there is a tetraherdon adjacent to the given element via this facet + */ + //================================================================================ + + bool TTriangleFacet::hasAdjacentTetra( const SMDS_MeshElement* elem ) const + { + // find the tetrahedron including the three nodes of facet + const SMDS_MeshNode* n1 = elem->GetNode(_n1); + const SMDS_MeshNode* n2 = elem->GetNode(_n2); + const SMDS_MeshNode* n3 = elem->GetNode(_n3); + SMDS_ElemIteratorPtr volIt1 = n1->GetInverseElementIterator(SMDSAbs_Volume); + while ( volIt1->more() ) + { + const SMDS_MeshElement* v = volIt1->next(); + if ( v->GetEntityType() != ( v->IsQuadratic() ? SMDSEntity_Quad_Tetra : SMDSEntity_Tetra )) + continue; + SMDS_ElemIteratorPtr volIt2 = n2->GetInverseElementIterator(SMDSAbs_Volume); + while ( volIt2->more() ) + if ( v != volIt2->next() ) + continue; + SMDS_ElemIteratorPtr volIt3 = n3->GetInverseElementIterator(SMDSAbs_Volume); + while ( volIt3->more() ) + if ( v == volIt3->next() ) + return true; + } + return false; + } + + //======================================================================= + /*! + * \brief A key of a face of volume + */ + //======================================================================= + + struct TVolumeFaceKey: pair< int, pair< int, int> > + { + TVolumeFaceKey( SMDS_VolumeTool& vol, int iF ) + { + TIDSortedNodeSet sortedNodes; + const int iQ = vol.Element()->IsQuadratic() ? 2 : 1; + int nbNodes = vol.NbFaceNodes( iF ); + const SMDS_MeshNode** fNodes = vol.GetFaceNodes( iF ); + for ( int i = 0; i < nbNodes; i += iQ ) + sortedNodes.insert( fNodes[i] ); + TIDSortedNodeSet::iterator n = sortedNodes.begin(); + first = (*(n++))->GetID(); + second.first = (*(n++))->GetID(); + second.second = (*(n++))->GetID(); + } + }; +} // namespace + +//======================================================================= +//function : SplitVolumesIntoTetra +//purpose : Split volumic elements into tetrahedra. +//======================================================================= + +void SMESH_MeshEditor::SplitVolumesIntoTetra (const TIDSortedElemSet & theElems, + const int theMethodFlags) +{ + // std-like iterator on coordinates of nodes of mesh element + typedef SMDS_StdIterator< TNodeXYZ, SMDS_ElemIteratorPtr > NXyzIterator; + NXyzIterator xyzEnd; + + SMDS_VolumeTool volTool; + SMESH_MesherHelper helper( *GetMesh()); + + SMESHDS_SubMesh* subMesh = GetMeshDS()->MeshElements(1); + SMESHDS_SubMesh* fSubMesh = subMesh; + + SMESH_SequenceOfElemPtr newNodes, newElems; + + // map face of volume to it's baricenrtic node + map< TVolumeFaceKey, const SMDS_MeshNode* > volFace2BaryNode; + double bc[3]; + + TIDSortedElemSet::const_iterator elem = theElems.begin(); + for ( ; elem != theElems.end(); ++elem ) + { + SMDSAbs_EntityType geomType = (*elem)->GetEntityType(); + if ( geomType <= SMDSEntity_Quad_Tetra ) + continue; // tetra or face or ... + + if ( !volTool.Set( *elem )) continue; // not volume? strange... + + TSplitMethod splitMethod = getSplitMethod( volTool, theMethodFlags ); + if ( splitMethod._nbTetra < 1 ) continue; + + // find submesh to add new tetras to + if ( !subMesh || !subMesh->Contains( *elem )) + { + int shapeID = FindShape( *elem ); + helper.SetSubShape( shapeID ); // helper will add tetras to the found submesh + subMesh = GetMeshDS()->MeshElements( shapeID ); + } + int iQ; + if ( (*elem)->IsQuadratic() ) + { + iQ = 2; + // add quadratic links to the helper + for ( int iF = 0; iF < volTool.NbFaces(); ++iF ) + { + const SMDS_MeshNode** fNodes = volTool.GetFaceNodes( iF ); + for ( int iN = 0; iN < volTool.NbFaceNodes( iF ); iN += iQ ) + helper.AddTLinkNode( fNodes[iF], fNodes[iF+2], fNodes[iF+1] ); + } + helper.SetIsQuadratic( true ); + } + else + { + iQ = 1; + helper.SetIsQuadratic( false ); + } + vector nodes( (*elem)->begin_nodes(), (*elem)->end_nodes() ); + if ( splitMethod._baryNode ) + { + // make a node at barycenter + volTool.GetBaryCenter( bc[0], bc[1], bc[2] ); + SMDS_MeshNode* gcNode = helper.AddNode( bc[0], bc[1], bc[2] ); + nodes.push_back( gcNode ); + newNodes.Append( gcNode ); + } + if ( !splitMethod._faceBaryNode.empty() ) + { + // make or find baricentric nodes of faces + map::iterator iF_n = splitMethod._faceBaryNode.begin(); + for ( ; iF_n != splitMethod._faceBaryNode.end(); ++iF_n ) + { + map< TVolumeFaceKey, const SMDS_MeshNode* >::iterator f_n = + volFace2BaryNode.insert + ( make_pair( TVolumeFaceKey( volTool,iF_n->first ), (const SMDS_MeshNode*)0) ).first; + if ( !f_n->second ) + { + volTool.GetFaceBaryCenter( iF_n->first, bc[0], bc[1], bc[2] ); + newNodes.Append( f_n->second = helper.AddNode( bc[0], bc[1], bc[2] )); + } + nodes.push_back( iF_n->second = f_n->second ); + } + } + + // make tetras + helper.SetElementsOnShape( true ); + vector tetras( splitMethod._nbTetra ); // splits of a volume + const int* tetConn = splitMethod._connectivity; + for ( int i = 0; i < splitMethod._nbTetra; ++i, tetConn += 4 ) + newElems.Append( tetras[ i ] = helper.AddVolume( nodes[ tetConn[0] ], + nodes[ tetConn[1] ], + nodes[ tetConn[2] ], + nodes[ tetConn[3] ])); + + ReplaceElemInGroups( *elem, tetras, GetMeshDS() ); + + // Split faces on sides of the split volume + + const SMDS_MeshNode** volNodes = volTool.GetNodes(); + for ( int iF = 0; iF < volTool.NbFaces(); ++iF ) + { + const int nbNodes = volTool.NbFaceNodes( iF ) / iQ; + if ( nbNodes < 4 ) continue; + + // find an existing face + vector fNodes( volTool.GetFaceNodes( iF ), + volTool.GetFaceNodes( iF ) + nbNodes*iQ ); + while ( const SMDS_MeshElement* face = GetMeshDS()->FindFace( fNodes )) + { + // make triangles + helper.SetElementsOnShape( false ); + vector< const SMDS_MeshElement* > triangles; + + map::iterator iF_n = splitMethod._faceBaryNode.find(iF); + if ( iF_n != splitMethod._faceBaryNode.end() ) + { + for ( int iN = 0; iN < nbNodes*iQ; iN += iQ ) + { + const SMDS_MeshNode* n1 = fNodes[iN]; + const SMDS_MeshNode *n2 = fNodes[(iN+iQ)%nbNodes*iQ]; + const SMDS_MeshNode *n3 = iF_n->second; + if ( !volTool.IsFaceExternal( iF )) + swap( n2, n3 ); + triangles.push_back( helper.AddFace( n1,n2,n3 )); + } + } + else + { + // among possible triangles create ones discribed by split method + const int* nInd = volTool.GetFaceNodesIndices( iF ); + int nbVariants = ( nbNodes == 4 ? 2 : nbNodes ); + int iCom = 0; // common node of triangle faces to split into + list< TTriangleFacet > facets; + for ( int iVar = 0; iVar < nbVariants; ++iVar, ++iCom ) + { + TTriangleFacet t012( nInd[ iQ * ( iCom )], + nInd[ iQ * ( (iCom+1)%nbNodes )], + nInd[ iQ * ( (iCom+2)%nbNodes )]); + TTriangleFacet t023( nInd[ iQ * ( iCom )], + nInd[ iQ * ( (iCom+2)%nbNodes )], + nInd[ iQ * ( (iCom+3)%nbNodes )]); + if ( splitMethod.hasFacet( t012 ) && splitMethod.hasFacet( t023 )) + { + facets.push_back( t012 ); + facets.push_back( t023 ); + for ( int iLast = iCom+4; iLast < iCom+nbNodes; ++iLast ) + facets.push_back( TTriangleFacet( nInd[ iQ * ( iCom )], + nInd[ iQ * ((iLast-1)%nbNodes )], + nInd[ iQ * ((iLast )%nbNodes )])); + break; + } + } + list< TTriangleFacet >::iterator facet = facets.begin(); + for ( ; facet != facets.end(); ++facet ) + { + if ( !volTool.IsFaceExternal( iF )) + swap( facet->_n2, facet->_n3 ); + triangles.push_back( helper.AddFace( volNodes[ facet->_n1 ], + volNodes[ facet->_n2 ], + volNodes[ facet->_n3 ])); + } + } + // find submesh to add new triangles in + if ( !fSubMesh || !fSubMesh->Contains( face )) + { + int shapeID = FindShape( face ); + fSubMesh = GetMeshDS()->MeshElements( shapeID ); + } + for ( int i = 0; i < triangles.size(); ++i ) + { + if ( !triangles[i] ) continue; + if ( fSubMesh ) + fSubMesh->AddElement( triangles[i]); + newElems.Append( triangles[i] ); + } + ReplaceElemInGroups( face, triangles, GetMeshDS() ); + GetMeshDS()->RemoveFreeElement( face, fSubMesh, /*fromGroups=*/false ); + } + + } // loop on volume faces to split them into triangles + + GetMeshDS()->RemoveFreeElement( *elem, subMesh, /*fromGroups=*/false ); + + } // loop on volumes to split + + myLastCreatedNodes = newNodes; + myLastCreatedElems = newElems; +} + //======================================================================= //function : AddToSameGroups //purpose : add elemToAdd to the groups the elemInGroups belongs to @@ -1188,10 +1788,11 @@ void SMESH_MeshEditor::RemoveElemFromGroups (const SMDS_MeshElement* removeelem, } } -//======================================================================= -//function : ReplaceElemInGroups -//purpose : replace elemToRm by elemToAdd in the all groups -//======================================================================= +//================================================================================ +/*! + * \brief Replace elemToRm by elemToAdd in the all groups + */ +//================================================================================ void SMESH_MeshEditor::ReplaceElemInGroups (const SMDS_MeshElement* elemToRm, const SMDS_MeshElement* elemToAdd, @@ -1208,7 +1809,30 @@ void SMESH_MeshEditor::ReplaceElemInGroups (const SMDS_MeshElement* elemToRm, } } -//======================================================================= +//================================================================================ +/*! + * \brief Replace elemToRm by elemToAdd in the all groups + */ +//================================================================================ + +void SMESH_MeshEditor::ReplaceElemInGroups (const SMDS_MeshElement* elemToRm, + const vector& elemToAdd, + SMESHDS_Mesh * aMesh) +{ + const set& groups = aMesh->GetGroups(); + if (!groups.empty()) + { + set::const_iterator grIt = groups.begin(); + for ( ; grIt != groups.end(); grIt++ ) { + SMESHDS_Group* group = dynamic_cast( *grIt ); + if ( group && group->SMDSGroup().Remove( elemToRm ) ) + for ( int i = 0; i < elemToAdd.size(); ++i ) + group->SMDSGroup().Add( elemToAdd[ i ] ); + } + } +} + +//======================================================================= //function : QuadToTri //purpose : Cut quadrangles into triangles. // theCrit is used to select a diagonal to cut @@ -1244,20 +1868,28 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, aNodes[ i++ ] = static_cast( itN->next() ); int aShapeId = FindShape( elem ); - const SMDS_MeshElement* newElem = 0; + const SMDS_MeshElement* newElem1 = 0; + const SMDS_MeshElement* newElem2 = 0; if ( the13Diag ) { - aMesh->ChangeElementNodes( elem, aNodes, 3 ); - newElem = aMesh->AddFace( aNodes[2], aNodes[3], aNodes[0] ); + newElem1 = aMesh->AddFace( aNodes[2], aNodes[0], aNodes[1] ); + newElem2 = aMesh->AddFace( aNodes[2], aNodes[3], aNodes[0] ); } else { - aMesh->ChangeElementNodes( elem, &aNodes[1], 3 ); - newElem = aMesh->AddFace( aNodes[3], aNodes[0], aNodes[1] ); + newElem1 = aMesh->AddFace( aNodes[3], aNodes[0], aNodes[1] ); + newElem2 = aMesh->AddFace( aNodes[3], aNodes[1], aNodes[2] ); } - myLastCreatedElems.Append(newElem); + myLastCreatedElems.Append(newElem1); + myLastCreatedElems.Append(newElem2); // put a new triangle on the same shape and add to the same groups if ( aShapeId ) - aMesh->SetMeshElementOnShape( newElem, aShapeId ); - AddToSameGroups( newElem, elem, aMesh ); + { + aMesh->SetMeshElementOnShape( newElem1, aShapeId ); + aMesh->SetMeshElementOnShape( newElem2, aShapeId ); + } + AddToSameGroups( newElem1, elem, aMesh ); + AddToSameGroups( newElem2, elem, aMesh ); + //aMesh->RemoveFreeElement(elem, aMesh->MeshElements(aShapeId), true); + aMesh->RemoveElement( elem ); } // Quadratic quadrangle @@ -1312,7 +1944,8 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, myLastCreatedNodes.Append(newN); // create a new element - const SMDS_MeshElement* newElem = 0; + const SMDS_MeshElement* newElem1 = 0; + const SMDS_MeshElement* newElem2 = 0; const SMDS_MeshNode* N[6]; if ( the13Diag ) { N[0] = aNodes[0]; @@ -1321,8 +1954,10 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, N[3] = aNodes[4]; N[4] = aNodes[5]; N[5] = newN; - newElem = aMesh->AddFace(aNodes[2], aNodes[3], aNodes[0], - aNodes[6], aNodes[7], newN ); + newElem1 = aMesh->AddFace(aNodes[2], aNodes[3], aNodes[0], + aNodes[6], aNodes[7], newN ); + newElem2 = aMesh->AddFace(aNodes[2], aNodes[0], aNodes[1], + newN, aNodes[4], aNodes[5] ); } else { N[0] = aNodes[1]; @@ -1331,15 +1966,22 @@ bool SMESH_MeshEditor::QuadToTri (TIDSortedElemSet & theElems, N[3] = aNodes[5]; N[4] = aNodes[6]; N[5] = newN; - newElem = aMesh->AddFace(aNodes[3], aNodes[0], aNodes[1], - aNodes[7], aNodes[4], newN ); + newElem1 = aMesh->AddFace(aNodes[3], aNodes[0], aNodes[1], + aNodes[7], aNodes[4], newN ); + newElem2 = aMesh->AddFace(aNodes[3], aNodes[1], aNodes[2], + newN, aNodes[5], aNodes[6] ); } - myLastCreatedElems.Append(newElem); - aMesh->ChangeElementNodes( elem, N, 6 ); + myLastCreatedElems.Append(newElem1); + myLastCreatedElems.Append(newElem2); // put a new triangle on the same shape and add to the same groups if ( aShapeId ) - aMesh->SetMeshElementOnShape( newElem, aShapeId ); - AddToSameGroups( newElem, elem, aMesh ); + { + aMesh->SetMeshElementOnShape( newElem1, aShapeId ); + aMesh->SetMeshElementOnShape( newElem2, aShapeId ); + } + AddToSameGroups( newElem1, elem, aMesh ); + AddToSameGroups( newElem2, elem, aMesh ); + aMesh->RemoveElement( elem ); } } @@ -1385,7 +2027,7 @@ double getAngle(const SMDS_MeshElement * tr1, int i = 0, iDiag = -1; while ( it->more()) { const SMDS_MeshElement *n = it->next(); - if ( n == n1 || n == n2 ) + if ( n == n1 || n == n2 ) { if ( iDiag < 0) iDiag = i; else { @@ -1395,6 +2037,7 @@ double getAngle(const SMDS_MeshElement * tr1, nFirst[ t ] = n; break; } + } i++; } } @@ -1411,7 +2054,7 @@ double getAngle(const SMDS_MeshElement * tr1, // and able to return nodes by that ID // ================================================= class LinkID_Gen { - public: +public: LinkID_Gen( const SMESHDS_Mesh* theMesh ) :myMesh( theMesh ), myMaxID( theMesh->MaxNodeID() + 1) @@ -1434,7 +2077,7 @@ class LinkID_Gen { return true; } - private: +private: LinkID_Gen(); const SMESHDS_Mesh* myMesh; long myMaxID; @@ -1635,16 +2278,17 @@ bool SMESH_MeshEditor::TriToQuad (TIDSortedElemSet & theElems, mapEl_setLi.erase( tr2 ); mapLi_listEl.erase( *link12 ); if(tr1->NbNodes()==3) { - if( tr1->GetID() < tr2->GetID() ) { - aMesh->ChangeElementNodes( tr1, n12, 4 ); - myLastCreatedElems.Append(tr1); - aMesh->RemoveElement( tr2 ); - } - else { - aMesh->ChangeElementNodes( tr2, n12, 4 ); - myLastCreatedElems.Append(tr2); - aMesh->RemoveElement( tr1); - } + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace(n12[0], n12[1], n12[2], n12[3] ); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr2 ); } else { const SMDS_MeshNode* N1 [6]; @@ -1662,16 +2306,18 @@ bool SMESH_MeshEditor::TriToQuad (TIDSortedElemSet & theElems, aNodes[5] = N2[5]; aNodes[6] = N2[3]; aNodes[7] = N1[5]; - if( tr1->GetID() < tr2->GetID() ) { - GetMeshDS()->ChangeElementNodes( tr1, aNodes, 8 ); - myLastCreatedElems.Append(tr1); - GetMeshDS()->RemoveElement( tr2 ); - } - else { - GetMeshDS()->ChangeElementNodes( tr2, aNodes, 8 ); - myLastCreatedElems.Append(tr2); - GetMeshDS()->RemoveElement( tr1 ); - } + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace(aNodes[0], aNodes[1], aNodes[2], aNodes[3], + aNodes[4], aNodes[5], aNodes[6], aNodes[7]); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr2 ); // remove middle node (9) GetMeshDS()->RemoveNode( N1[4] ); } @@ -1680,16 +2326,17 @@ bool SMESH_MeshEditor::TriToQuad (TIDSortedElemSet & theElems, mapEl_setLi.erase( tr3 ); mapLi_listEl.erase( *link13 ); if(tr1->NbNodes()==3) { - if( tr1->GetID() < tr2->GetID() ) { - aMesh->ChangeElementNodes( tr1, n13, 4 ); - myLastCreatedElems.Append(tr1); - aMesh->RemoveElement( tr3 ); - } - else { - aMesh->ChangeElementNodes( tr3, n13, 4 ); - myLastCreatedElems.Append(tr3); - aMesh->RemoveElement( tr1 ); - } + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace(n13[0], n13[1], n13[2], n13[3] ); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr3 ); } else { const SMDS_MeshNode* N1 [6]; @@ -1707,16 +2354,18 @@ bool SMESH_MeshEditor::TriToQuad (TIDSortedElemSet & theElems, aNodes[5] = N2[5]; aNodes[6] = N2[3]; aNodes[7] = N1[5]; - if( tr1->GetID() < tr2->GetID() ) { - GetMeshDS()->ChangeElementNodes( tr1, aNodes, 8 ); - myLastCreatedElems.Append(tr1); - GetMeshDS()->RemoveElement( tr3 ); - } - else { - GetMeshDS()->ChangeElementNodes( tr3, aNodes, 8 ); - myLastCreatedElems.Append(tr3); - GetMeshDS()->RemoveElement( tr1 ); - } + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddFace(aNodes[0], aNodes[1], aNodes[2], aNodes[3], + aNodes[4], aNodes[5], aNodes[6], aNodes[7]); + myLastCreatedElems.Append(newElem); + AddToSameGroups( newElem, tr1, aMesh ); + int aShapeId = tr1->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement( tr1 ); + aMesh->RemoveElement( tr3 ); // remove middle node (9) GetMeshDS()->RemoveNode( N1[4] ); } @@ -1743,15 +2392,15 @@ bool SMESH_MeshEditor::TriToQuad (TIDSortedElemSet & theElems, //============================================================================= static void swap( int i1, int i2, int idNodes[], gp_Pnt P[] ) { - if ( i1 == i2 ) - return; - int tmp = idNodes[ i1 ]; - idNodes[ i1 ] = idNodes[ i2 ]; - idNodes[ i2 ] = tmp; - gp_Pnt Ptmp = P[ i1 ]; - P[ i1 ] = P[ i2 ]; - P[ i2 ] = Ptmp; - DUMPSO( i1 << "(" << idNodes[ i2 ] << ") <-> " << i2 << "(" << idNodes[ i1 ] << ")"); +if ( i1 == i2 ) +return; +int tmp = idNodes[ i1 ]; +idNodes[ i1 ] = idNodes[ i2 ]; +idNodes[ i2 ] = tmp; +gp_Pnt Ptmp = P[ i1 ]; +P[ i1 ] = P[ i2 ]; +P[ i2 ] = Ptmp; +DUMPSO( i1 << "(" << idNodes[ i2 ] << ") <-> " << i2 << "(" << idNodes[ i1 ] << ")"); } //======================================================================= @@ -1762,7 +2411,7 @@ static void swap( int i1, int i2, int idNodes[], gp_Pnt P[] ) //======================================================================= int SMESH_MeshEditor::SortQuadNodes (const SMDS_Mesh * theMesh, - int idNodes[] ) +int idNodes[] ) { gp_Pnt P[4]; int i; @@ -1791,10 +2440,10 @@ int SMESH_MeshEditor::SortQuadNodes (const SMDS_Mesh * theMesh, i = 1; swap ( i, i + 1, idNodes, P ); -// for ( int ii = 0; ii < 4; ii++ ) { -// const SMDS_MeshNode *n = theMesh->FindNode( idNodes[ii] ); -// DUMPSO( ii << "(" << idNodes[ii] <<") : "<X()<<" "<Y()<<" "<Z()); -// } + // for ( int ii = 0; ii < 4; ii++ ) { + // const SMDS_MeshNode *n = theMesh->FindNode( idNodes[ii] ); + // DUMPSO( ii << "(" << idNodes[ii] <<") : "<X()<<" "<Y()<<" "<Z()); + // } } return i; } @@ -1910,7 +2559,7 @@ bool SMESH_MeshEditor::SortHexaNodes (const SMDS_Mesh * theMesh, faceNodes.insert( idNodes[ 2 ] ); faceNodes.insert( idNodes[ iMin ] ); DUMPSO( "loop " << iLoop2 << " id2 " << idNodes[ 1 ] << " id3 " << idNodes[ 2 ] - << " leastDist = " << leastDist); + << " leastDist = " << leastDist); if ( leastDist <= DBL_MIN ) break; } @@ -1948,11 +2597,11 @@ bool SMESH_MeshEditor::SortHexaNodes (const SMDS_Mesh * theMesh, P[ i ] = P[ i+1 ]; P[ i+1 ] = Ptmp; } -// else -// for ( int ii = 0; ii < 4; ii++ ) { -// const SMDS_MeshNode *n = theMesh->FindNode( idNodes[ii] ); -// DUMPSO( ii << "(" << idNodes[ii] <<") : "<X()<<" "<Y()<<" "<Z()); -// } + // else + // for ( int ii = 0; ii < 4; ii++ ) { + // const SMDS_MeshNode *n = theMesh->FindNode( idNodes[ii] ); + // DUMPSO( ii << "(" << idNodes[ii] <<") : "<X()<<" "<Y()<<" "<Z()); + // } // Gravity center of the top and bottom faces gp_Pnt aGCb = ( P[0].XYZ() + P[1].XYZ() + P[2].XYZ() + P[3].XYZ() ) / 4.; @@ -2004,11 +2653,11 @@ bool SMESH_MeshEditor::SortHexaNodes (const SMDS_Mesh * theMesh, swap( 5, 7, idNodes, P ); } -// DUMPSO( "OUTPUT: ========================================"); -// for ( i = 0; i < 8; i++ ) { -// float *p = ugrid->GetPoint(idNodes[i]); -// DUMPSO( i << "(" << idNodes[i] << ") : " << p[0] << " " << p[1] << " " << p[2]); -// } + // DUMPSO( "OUTPUT: ========================================"); + // for ( i = 0; i < 8; i++ ) { + // float *p = ugrid->GetPoint(idNodes[i]); + // DUMPSO( i << "(" << idNodes[i] << ") : " << p[0] << " " << p[1] << " " << p[2]); + // } return true; }*/ @@ -2016,11 +2665,11 @@ bool SMESH_MeshEditor::SortHexaNodes (const SMDS_Mesh * theMesh, //================================================================================ /*! * \brief Return nodes linked to the given one - * \param theNode - the node - * \param linkedNodes - the found nodes - * \param type - the type of elements to check - * - * Medium nodes are ignored + * \param theNode - the node + * \param linkedNodes - the found nodes + * \param type - the type of elements to check + * + * Medium nodes are ignored */ //================================================================================ @@ -2300,14 +2949,14 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, } int nbElemOnFace = 0; itElem = theElems.begin(); - // loop on not yet smoothed elements: look for elems on a face + // loop on not yet smoothed elements: look for elems on a face while ( itElem != theElems.end() ) { if ( faceSubMesh && nbElemOnFace == faceSubMesh->NbElements() ) break; // all elements found const SMDS_MeshElement* elem = *itElem; if ( !elem || elem->GetType() != SMDSAbs_Face || elem->NbNodes() < 3 || - ( faceSubMesh && !faceSubMesh->Contains( elem ))) { + ( faceSubMesh && !faceSubMesh->Contains( elem ))) { ++itElem; continue; } @@ -2328,7 +2977,7 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, while ( nn++ < nbn ) { node = static_cast( itN->next() ); const SMDS_PositionPtr& pos = node->GetPosition(); - posType = pos.get() ? pos->GetTypeOfPosition() : SMDS_TOP_3DSPACE; + posType = pos ? pos->GetTypeOfPosition() : SMDS_TOP_3DSPACE; if (posType != SMDS_TOP_EDGE && posType != SMDS_TOP_VERTEX && theFixedNodes.find( node ) == theFixedNodes.end()) @@ -2366,19 +3015,19 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, if ( uvMap.find( node ) == uvMap.end() ) uvCheckNodes.push_back( node ); // add nodes of elems sharing node -// SMDS_ElemIteratorPtr eIt = node->GetInverseElementIterator(SMDSAbs_Face); -// while ( eIt->more() ) { -// const SMDS_MeshElement* e = eIt->next(); -// if ( e != elem ) { -// SMDS_ElemIteratorPtr nIt = e->nodesIterator(); -// while ( nIt->more() ) { -// const SMDS_MeshNode* n = -// static_cast( nIt->next() ); -// if ( uvMap.find( n ) == uvMap.end() ) -// uvCheckNodes.push_back( n ); -// } -// } -// } + // SMDS_ElemIteratorPtr eIt = node->GetInverseElementIterator(SMDSAbs_Face); + // while ( eIt->more() ) { + // const SMDS_MeshElement* e = eIt->next(); + // if ( e != elem ) { + // SMDS_ElemIteratorPtr nIt = e->nodesIterator(); + // while ( nIt->more() ) { + // const SMDS_MeshNode* n = + // static_cast( nIt->next() ); + // if ( uvMap.find( n ) == uvMap.end() ) + // uvCheckNodes.push_back( n ); + // } + // } + // } } // check UV on face list< const SMDS_MeshNode* >::iterator n = uvCheckNodes.begin(); @@ -2386,27 +3035,27 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, node = *n; gp_XY uv( 0, 0 ); const SMDS_PositionPtr& pos = node->GetPosition(); - posType = pos.get() ? pos->GetTypeOfPosition() : SMDS_TOP_3DSPACE; + posType = pos ? pos->GetTypeOfPosition() : SMDS_TOP_3DSPACE; // get existing UV switch ( posType ) { case SMDS_TOP_FACE: { - SMDS_FacePosition* fPos = ( SMDS_FacePosition* ) pos.get(); + SMDS_FacePosition* fPos = ( SMDS_FacePosition* ) pos; uv.SetCoord( fPos->GetUParameter(), fPos->GetVParameter() ); break; } case SMDS_TOP_EDGE: { - TopoDS_Shape S = aMesh->IndexToShape( pos->GetShapeId() ); + TopoDS_Shape S = aMesh->IndexToShape( node->getshapeId() ); Handle(Geom2d_Curve) pcurve; if ( !S.IsNull() && S.ShapeType() == TopAbs_EDGE ) pcurve = BRep_Tool::CurveOnSurface( TopoDS::Edge( S ), face, f,l ); if ( !pcurve.IsNull() ) { - double u = (( SMDS_EdgePosition* ) pos.get() )->GetUParameter(); + double u = (( SMDS_EdgePosition* ) pos )->GetUParameter(); uv = pcurve->Value( u ).XY(); } break; } case SMDS_TOP_VERTEX: { - TopoDS_Shape S = aMesh->IndexToShape( pos->GetShapeId() ); + TopoDS_Shape S = aMesh->IndexToShape( node->getshapeId() ); if ( !S.IsNull() && S.ShapeType() == TopAbs_VERTEX ) uv = BRep_Tool::Parameters( TopoDS::Vertex( S ), face ).XY(); break; @@ -2669,7 +3318,7 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, if ( node_uv != uvMap.end() ) { gp_XY* uv = node_uv->second; node->SetPosition - ( SMDS_PositionPtr( new SMDS_FacePosition( *fId, uv->X(), uv->Y() ))); + ( SMDS_PositionPtr( new SMDS_FacePosition( uv->X(), uv->Y() ))); } } @@ -2681,14 +3330,14 @@ void SMESH_MeshEditor::Smooth (TIDSortedElemSet & theElems, helper.SetSubShape( face ); list< const SMDS_MeshElement* >::iterator elemIt = elemsOnFace.begin(); for ( ; elemIt != elemsOnFace.end(); ++elemIt ) { - const SMDS_QuadraticFaceOfNodes* QF = - dynamic_cast (*elemIt); - if(QF) { + const SMDS_VtkFace* QF = + dynamic_cast (*elemIt); + if(QF && QF->IsQuadratic()) { vector Ns; Ns.reserve(QF->NbNodes()+1); - SMDS_NodeIteratorPtr anIter = QF->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = QF->interlacedNodesElemIterator(); while ( anIter->more() ) - Ns.push_back( anIter->next() ); + Ns.push_back( cast2Node(anIter->next()) ); Ns.push_back( Ns[0] ); double x, y, z; for(int i=0; iNbNodes(); i=i+2) { @@ -2766,6 +3415,7 @@ void SMESH_MeshEditor::sweepElement(const SMDS_MeshElement* elem, const int nbSteps, SMESH_SequenceOfElemPtr& srcElements) { + //MESSAGE("sweepElement " << nbSteps); SMESHDS_Mesh* aMesh = GetMeshDS(); // Loop on elem nodes: @@ -2788,33 +3438,33 @@ void SMESH_MeshEditor::sweepElement(const SMDS_MeshElement* elem, return; } - issimple[iNode] = (listNewNodes.size()==nbSteps); + issimple[iNode] = (listNewNodes.size()==nbSteps); // is node medium itNN[ iNode ] = listNewNodes.begin(); prevNod[ iNode ] = node; nextNod[ iNode ] = listNewNodes.front(); - if( !issimple[iNode] ) { + if( !elem->IsQuadratic() || !issimple[iNode] ) { if ( prevNod[ iNode ] != nextNod [ iNode ]) - iNotSameNode = iNode; + iNotSameNode = iNode; else { - iSameNode = iNode; - //nbSame++; - sames[nbSame++] = iNode; + iSameNode = iNode; + //nbSame++; + sames[nbSame++] = iNode; } } } - //cout<<" nbSame = "<GetID() ); - INFOS( " Too many same nodes of element " << elem->GetID() ); + MESSAGE( " Too many same nodes of element " << elem->GetID() ); + //INFOS( " Too many same nodes of element " << elem->GetID() ); return; } -// if( elem->IsQuadratic() && nbSame>0 ) { -// MESSAGE( "Can not rotate quadratic element " << elem->GetID() ); -// return; -// } + // if( elem->IsQuadratic() && nbSame>0 ) { + // MESSAGE( "Can not rotate quadratic element " << elem->GetID() ); + // return; + // } int iBeforeSame = 0, iAfterSame = 0, iOpposSame = 0; int nbBaseNodes = ( elem->IsQuadratic() ? nbNodes/2 : nbNodes ); @@ -2824,11 +3474,11 @@ void SMESH_MeshEditor::sweepElement(const SMDS_MeshElement* elem, iOpposSame = ( iSameNode - 2 < 0 ? iSameNode + 2 : iSameNode - 2 ); } -//if(nbNodes==8) -//cout<<" prevNod[0]="<< prevNod[0]<<" prevNod[1]="<< prevNod[1] -// <<" prevNod[2]="<< prevNod[2]<<" prevNod[3]="<< prevNod[4] -// <<" prevNod[4]="<< prevNod[4]<<" prevNod[5]="<< prevNod[5] -// <<" prevNod[6]="<< prevNod[6]<<" prevNod[7]="<< prevNod[7]<GetID() << " can not be created" ); - return; - } - else if(nbSame==2) { - // 2d order Pentahedron with 15 nodes - //SMDS_MeshVolume* AddVolumeWithID(int n1, int n2, int n3, int n4, int n5, int n6, + if(nbSame==0) { + // create hexahedron with 20 nodes + if(i0>0) { // reversed case + aNewElem = aMesh->AddVolume (prevNod[0], prevNod[3], prevNod[2], prevNod[1], + nextNod[0], nextNod[3], nextNod[2], nextNod[1], + prevNod[7], prevNod[6], prevNod[5], prevNod[4], + nextNod[7], nextNod[6], nextNod[5], nextNod[4], + midlNod[0], midlNod[3], midlNod[2], midlNod[1]); + } + else { // not reversed case + aNewElem = aMesh->AddVolume (prevNod[0], prevNod[1], prevNod[2], prevNod[3], + nextNod[0], nextNod[1], nextNod[2], nextNod[3], + prevNod[4], prevNod[5], prevNod[6], prevNod[7], + nextNod[4], nextNod[5], nextNod[6], nextNod[7], + midlNod[0], midlNod[1], midlNod[2], midlNod[3]); + } + } + else if(nbSame==1) { + // --- pyramid + pentahedron - can not be created since it is needed + // additional middle node ot the center of face + INFOS( " Sweep for face " << elem->GetID() << " can not be created" ); + return; + } + else if(nbSame==2) { + // 2d order Pentahedron with 15 nodes + //SMDS_MeshVolume* AddVolumeWithID(int n1, int n2, int n3, int n4, int n5, int n6, // int n12,int n23,int n31,int n45,int n56,int n64, // int n14,int n25,int n36, int ID); - int n1,n2,n4,n5; + int n1,n2,n4,n5; if ( prevNod[ iBeforeSame ] == nextNod[ iBeforeSame ] ) { // iBeforeSame is same too - n1 = iBeforeSame; - n2 = iOpposSame; - n4 = iSameNode; - n5 = iAfterSame; - } - else { + n1 = iBeforeSame; + n2 = iOpposSame; + n4 = iSameNode; + n5 = iAfterSame; + } + else { // iAfterSame is same too - n1 = iSameNode; - n2 = iBeforeSame; - n4 = iAfterSame; - n5 = iOpposSame; - } - int n12,n45,n14,n25; - if(i0>0) { //reversed case - n12 = n1 + 4; - n45 = n5 + 4; - n14 = n4 + 4; - n25 = n2 + 4; - } - else { - n12 = n2 + 4; - n45 = n4 + 4; - n14 = n1 + 4; - n25 = n5 + 4; - } - aNewElem = aMesh->AddVolume (prevNod[n1], prevNod[n2], nextNod[n2], - prevNod[n4], prevNod[n5], nextNod[n5], - prevNod[n12], midlNod[n2], nextNod[n12], - prevNod[n45], midlNod[n5], nextNod[n45], - prevNod[n14], prevNod[n25], nextNod[n25]); - } + n1 = iSameNode; + n2 = iBeforeSame; + n4 = iAfterSame; + n5 = iOpposSame; + } + int n12,n45,n14,n25; + if(i0>0) { //reversed case + n12 = n1 + 4; + n45 = n5 + 4; + n14 = n4 + 4; + n25 = n2 + 4; + } + else { + n12 = n2 + 4; + n45 = n4 + 4; + n14 = n1 + 4; + n25 = n5 + 4; + } + aNewElem = aMesh->AddVolume (prevNod[n1], prevNod[n2], nextNod[n2], + prevNod[n4], prevNod[n5], nextNod[n5], + prevNod[n12], midlNod[n2], nextNod[n12], + prevNod[n45], midlNod[n5], nextNod[n45], + prevNod[n14], prevNod[n25], nextNod[n25]); + } break; } default: { @@ -3161,6 +3812,7 @@ void SMESH_MeshEditor::sweepElement(const SMDS_MeshElement* elem, newElems.push_back( aNewElem ); myLastCreatedElems.Append(aNewElem); srcElements.Append( elem ); + lastElem = aNewElem; } // set new prev nodes @@ -3189,6 +3841,7 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, const int nbSteps, SMESH_SequenceOfElemPtr& srcElements) { + MESSAGE("makeWalls"); ASSERT( newElemsMap.size() == elemNewNodesMap.size() ); SMESHDS_Mesh* aMesh = GetMeshDS(); @@ -3389,7 +4042,10 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, if ( !f ) myLastCreatedElems.Append(aMesh->AddFace( nodes[ 0 ], nodes[ 1 ], nodes[ 2 ] )); else if ( nodes[ 1 ] != f->GetNodeWrap( f->GetNodeIndex( nodes[ 0 ] ) + 1 )) - aMesh->ChangeElementNodes( f, nodes, nbn ); + { + myLastCreatedElems.Append(aMesh->AddFace( nodes[ 0 ], nodes[ 1 ], nodes[ 2 ] )); + aMesh->RemoveElement(f); + } break; } case 4: { ///// quadrangle @@ -3397,7 +4053,10 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, if ( !f ) myLastCreatedElems.Append(aMesh->AddFace( nodes[ 0 ], nodes[ 1 ], nodes[ 2 ], nodes[ 3 ] )); else if ( nodes[ 1 ] != f->GetNodeWrap( f->GetNodeIndex( nodes[ 0 ] ) + 1 )) - aMesh->ChangeElementNodes( f, nodes, nbn ); + { + myLastCreatedElems.Append(aMesh->AddFace( nodes[ 0 ], nodes[ 1 ], nodes[ 2 ], nodes[ 3 ] )); + aMesh->RemoveElement(f); + } break; } default: @@ -3408,17 +4067,19 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, if ( !f ) { myLastCreatedElems.Append(aMesh->AddFace(nodes[0], nodes[2], nodes[4], nodes[1], nodes[3], nodes[5])); - } + } else if ( nodes[ 2 ] != f->GetNodeWrap( f->GetNodeIndex( nodes[ 0 ] ) + 1 )) { - const SMDS_MeshNode** tmpnodes = new const SMDS_MeshNode*[6]; - tmpnodes[0] = nodes[0]; - tmpnodes[1] = nodes[2]; - tmpnodes[2] = nodes[4]; - tmpnodes[3] = nodes[1]; - tmpnodes[4] = nodes[3]; - tmpnodes[5] = nodes[5]; - aMesh->ChangeElementNodes( f, tmpnodes, nbn ); - } + const SMDS_MeshNode** tmpnodes = new const SMDS_MeshNode*[6]; + tmpnodes[0] = nodes[0]; + tmpnodes[1] = nodes[2]; + tmpnodes[2] = nodes[4]; + tmpnodes[3] = nodes[1]; + tmpnodes[4] = nodes[3]; + tmpnodes[5] = nodes[5]; + myLastCreatedElems.Append(aMesh->AddFace(nodes[0], nodes[2], nodes[4], + nodes[1], nodes[3], nodes[5])); + aMesh->RemoveElement(f); + } } else { /////// quadratic quadrangle const SMDS_MeshFace * f = aMesh->FindFace( nodes[0], nodes[2], nodes[4], nodes[6], @@ -3426,19 +4087,21 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, if ( !f ) { myLastCreatedElems.Append(aMesh->AddFace(nodes[0], nodes[2], nodes[4], nodes[6], nodes[1], nodes[3], nodes[5], nodes[7])); - } + } else if ( nodes[ 2 ] != f->GetNodeWrap( f->GetNodeIndex( nodes[ 0 ] ) + 1 )) { - const SMDS_MeshNode** tmpnodes = new const SMDS_MeshNode*[8]; - tmpnodes[0] = nodes[0]; - tmpnodes[1] = nodes[2]; - tmpnodes[2] = nodes[4]; - tmpnodes[3] = nodes[6]; - tmpnodes[4] = nodes[1]; - tmpnodes[5] = nodes[3]; - tmpnodes[6] = nodes[5]; - tmpnodes[7] = nodes[7]; - aMesh->ChangeElementNodes( f, tmpnodes, nbn ); - } + const SMDS_MeshNode** tmpnodes = new const SMDS_MeshNode*[8]; + tmpnodes[0] = nodes[0]; + tmpnodes[1] = nodes[2]; + tmpnodes[2] = nodes[4]; + tmpnodes[3] = nodes[6]; + tmpnodes[4] = nodes[1]; + tmpnodes[5] = nodes[3]; + tmpnodes[6] = nodes[5]; + tmpnodes[7] = nodes[7]; + myLastCreatedElems.Append(aMesh->AddFace(nodes[0], nodes[2], nodes[4], nodes[6], + nodes[1], nodes[3], nodes[5], nodes[7])); + aMesh->RemoveElement(f); + } } } else { //////// polygon @@ -3447,7 +4110,11 @@ void SMESH_MeshEditor::makeWalls (TNodeOfNodeListMap & mapNewNodes, if ( !f ) myLastCreatedElems.Append(aMesh->AddPolygonalFace(polygon_nodes)); else if ( nodes[ 1 ] != f->GetNodeWrap( f->GetNodeIndex( nodes[ 0 ] ) + 1 )) + { + // TODO problem ChangeElementNodes : not the same number of nodes, not the same type + MESSAGE("ChangeElementNodes"); aMesh->ChangeElementNodes( f, nodes, nbn ); + } } } while ( srcElements.Length() < myLastCreatedElems.Length() ) @@ -3598,51 +4265,51 @@ SMESH_MeshEditor::RotationSweep(TIDSortedElemSet & theElems, newNode = aMesh->AddNode( coord[0], coord[1], coord[2] ); myLastCreatedNodes.Append(newNode); srcNodes.Append( node ); - listNewNodes.push_back( newNode ); + listNewNodes.push_back( newNode ); + } + else { + listNewNodes.push_back( newNode ); + if( elem->IsQuadratic() && !elem->IsMediumNode(node) ) { + listNewNodes.push_back( newNode ); + } } - else { - listNewNodes.push_back( newNode ); - if( elem->IsQuadratic() && !elem->IsMediumNode(node) ) { - listNewNodes.push_back( newNode ); - } - } } } /* - else { + else { // if current elem is quadratic and current node is not medium // we have to check - may be it is needed to insert additional nodes if( elem->IsQuadratic() && !elem->IsMediumNode(node) ) { - list< const SMDS_MeshNode* > & listNewNodes = nIt->second; - if(listNewNodes.size()==theNbSteps) { - listNewNodes.clear(); - // make new nodes - //gp_XYZ aXYZ( node->X(), node->Y(), node->Z() ); - //double coord[3]; - //aXYZ.Coord( coord[0], coord[1], coord[2] ); - const SMDS_MeshNode * newNode = node; - if ( !isOnAxis ) { - for(int i = 0; iAddNode( coord[0], coord[1], coord[2] ); - cout<<" 3 AddNode: "<AddNode( coord[0], coord[1], coord[2] ); - cout<<" 4 AddNode: "< & listNewNodes = nIt->second; + if(listNewNodes.size()==theNbSteps) { + listNewNodes.clear(); + // make new nodes + //gp_XYZ aXYZ( node->X(), node->Y(), node->Z() ); + //double coord[3]; + //aXYZ.Coord( coord[0], coord[1], coord[2] ); + const SMDS_MeshNode * newNode = node; + if ( !isOnAxis ) { + for(int i = 0; iAddNode( coord[0], coord[1], coord[2] ); + cout<<" 3 AddNode: "<AddNode( coord[0], coord[1], coord[2] ); + cout<<" 4 AddNode: "<& theAngles, - const bool theLinearVariation, - const bool theHasRefPoint, - const gp_Pnt& theRefPoint, - const bool theMakeGroups) +SMESH_MeshEditor::ExtrusionAlongTrack (TIDSortedElemSet & theElements, + SMESH_subMesh* theTrack, + const SMDS_MeshNode* theN1, + const bool theHasAngles, + list& theAngles, + const bool theLinearVariation, + const bool theHasRefPoint, + const gp_Pnt& theRefPoint, + const bool theMakeGroups) { + MESSAGE("ExtrusionAlongTrack"); myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -4003,12 +4672,12 @@ SMESH_MeshEditor::Extrusion_Error while ( aItN->more() ) { const SMDS_MeshNode* pNode = aItN->next(); const SMDS_EdgePosition* pEPos = - static_cast( pNode->GetPosition().get() ); + static_cast( pNode->GetPosition() ); double aT = pEPos->GetUParameter(); aPrms.push_back( aT ); } //Extrusion_Error err = - MakeEdgePathPoints(aPrms, aTrackEdge, (aN1==theN1), fullList); + MakeEdgePathPoints(aPrms, aTrackEdge, (aN1==theN1), fullList); } else if( aS.ShapeType() == TopAbs_WIRE ) { list< SMESH_subMesh* > LSM; @@ -4029,37 +4698,37 @@ SMESH_MeshEditor::Extrusion_Error int k = 0; list< SMESH_subMesh* >::iterator itLSM = LSM.begin(); for(; itLSM!=LSM.end(); itLSM++) { - k++; - if(UsedNums.Contains(k)) continue; - aTrackEdge = TopoDS::Edge( Edges.Value(k) ); - SMESH_subMesh* locTrack = *itLSM; - SMESHDS_SubMesh* locMeshDS = locTrack->GetSubMeshDS(); - TopExp::Vertices( aTrackEdge, aV1, aV2 ); - aItN = locTrack->GetFather()->GetSubMesh(aV1)->GetSubMeshDS()->GetNodes(); - const SMDS_MeshNode* aN1 = aItN->next(); - aItN = locTrack->GetFather()->GetSubMesh(aV2)->GetSubMeshDS()->GetNodes(); - const SMDS_MeshNode* aN2 = aItN->next(); - // starting node must be aN1 or aN2 - if ( !( aN1->GetID() == startNid || aN2->GetID() == startNid ) ) continue; - // 2. Collect parameters on the track edge - aPrms.clear(); - aItN = locMeshDS->GetNodes(); - while ( aItN->more() ) { - const SMDS_MeshNode* pNode = aItN->next(); - const SMDS_EdgePosition* pEPos = - static_cast( pNode->GetPosition().get() ); - double aT = pEPos->GetUParameter(); - aPrms.push_back( aT ); - } - list LPP; - //Extrusion_Error err = - MakeEdgePathPoints(aPrms, aTrackEdge,(aN1->GetID()==startNid), LPP); - LLPPs.push_back(LPP); - UsedNums.Add(k); - // update startN for search following egde - if( aN1->GetID() == startNid ) startNid = aN2->GetID(); - else startNid = aN1->GetID(); - break; + k++; + if(UsedNums.Contains(k)) continue; + aTrackEdge = TopoDS::Edge( Edges.Value(k) ); + SMESH_subMesh* locTrack = *itLSM; + SMESHDS_SubMesh* locMeshDS = locTrack->GetSubMeshDS(); + TopExp::Vertices( aTrackEdge, aV1, aV2 ); + aItN = locTrack->GetFather()->GetSubMesh(aV1)->GetSubMeshDS()->GetNodes(); + const SMDS_MeshNode* aN1 = aItN->next(); + aItN = locTrack->GetFather()->GetSubMesh(aV2)->GetSubMeshDS()->GetNodes(); + const SMDS_MeshNode* aN2 = aItN->next(); + // starting node must be aN1 or aN2 + if ( !( aN1->GetID() == startNid || aN2->GetID() == startNid ) ) continue; + // 2. Collect parameters on the track edge + aPrms.clear(); + aItN = locMeshDS->GetNodes(); + while ( aItN->more() ) { + const SMDS_MeshNode* pNode = aItN->next(); + const SMDS_EdgePosition* pEPos = + static_cast( pNode->GetPosition() ); + double aT = pEPos->GetUParameter(); + aPrms.push_back( aT ); + } + list LPP; + //Extrusion_Error err = + MakeEdgePathPoints(aPrms, aTrackEdge,(aN1->GetID()==startNid), LPP); + LLPPs.push_back(LPP); + UsedNums.Add(k); + // update startN for search following egde + if( aN1->GetID() == startNid ) startNid = aN2->GetID(); + else startNid = aN1->GetID(); + break; } } list< list >::iterator itLLPP = LLPPs.begin(); @@ -4078,12 +4747,12 @@ SMESH_MeshEditor::Extrusion_Error gp_Dir D1 = PP1.Tangent(); gp_Dir D2 = PP2.Tangent(); gp_Dir Dnew( gp_Vec( (D1.X()+D2.X())/2, (D1.Y()+D2.Y())/2, - (D1.Z()+D2.Z())/2 ) ); + (D1.Z()+D2.Z())/2 ) ); PP1.SetTangent(Dnew); fullList.push_back(PP1); itPP++; for(; itPP!=firstList.end(); itPP++) { - fullList.push_back( *itPP ); + fullList.push_back( *itPP ); } PP1 = fullList.back(); fullList.pop_back(); @@ -4097,7 +4766,7 @@ SMESH_MeshEditor::Extrusion_Error } return MakeExtrElements(theElements, fullList, theHasAngles, theAngles, theLinearVariation, - theHasRefPoint, theRefPoint, theMakeGroups); + theHasRefPoint, theRefPoint, theMakeGroups); } @@ -4106,15 +4775,15 @@ SMESH_MeshEditor::Extrusion_Error //purpose : //======================================================================= SMESH_MeshEditor::Extrusion_Error - SMESH_MeshEditor::ExtrusionAlongTrack (TIDSortedElemSet & theElements, - SMESH_Mesh* theTrack, - const SMDS_MeshNode* theN1, - const bool theHasAngles, - list& theAngles, - const bool theLinearVariation, - const bool theHasRefPoint, - const gp_Pnt& theRefPoint, - const bool theMakeGroups) +SMESH_MeshEditor::ExtrusionAlongTrack (TIDSortedElemSet & theElements, + SMESH_Mesh* theTrack, + const SMDS_MeshNode* theN1, + const bool theHasAngles, + list& theAngles, + const bool theLinearVariation, + const bool theHasRefPoint, + const gp_Pnt& theRefPoint, + const bool theMakeGroups) { myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -4175,12 +4844,12 @@ SMESH_MeshEditor::Extrusion_Error const SMDS_MeshNode* pNode = aItN->next(); if( pNode==aN1 || pNode==aN2 ) continue; const SMDS_EdgePosition* pEPos = - static_cast( pNode->GetPosition().get() ); + static_cast( pNode->GetPosition() ); double aT = pEPos->GetUParameter(); aPrms.push_back( aT ); } //Extrusion_Error err = - MakeEdgePathPoints(aPrms, aTrackEdge, (aN1==theN1), fullList); + MakeEdgePathPoints(aPrms, aTrackEdge, (aN1==theN1), fullList); } else if( aS.ShapeType() == TopAbs_WIRE ) { list< SMESH_subMesh* > LSM; @@ -4191,8 +4860,8 @@ SMESH_MeshEditor::Extrusion_Error if( BRep_Tool::Degenerated(E) ) continue; SMESH_subMesh* SM = theTrack->GetSubMesh(E); if(SM) { - LSM.push_back(SM); - Edges.Append(E); + LSM.push_back(SM); + Edges.Append(E); } } list< list > LLPPs; @@ -4204,37 +4873,37 @@ SMESH_MeshEditor::Extrusion_Error int k = 0; list< SMESH_subMesh* >::iterator itLSM = LSM.begin(); for(; itLSM!=LSM.end(); itLSM++) { - k++; - if(UsedNums.Contains(k)) continue; - aTrackEdge = TopoDS::Edge( Edges.Value(k) ); - SMESH_subMesh* locTrack = *itLSM; - SMESHDS_SubMesh* locMeshDS = locTrack->GetSubMeshDS(); - TopExp::Vertices( aTrackEdge, aV1, aV2 ); - aItN = locTrack->GetFather()->GetSubMesh(aV1)->GetSubMeshDS()->GetNodes(); - const SMDS_MeshNode* aN1 = aItN->next(); - aItN = locTrack->GetFather()->GetSubMesh(aV2)->GetSubMeshDS()->GetNodes(); - const SMDS_MeshNode* aN2 = aItN->next(); - // starting node must be aN1 or aN2 - if ( !( aN1->GetID() == startNid || aN2->GetID() == startNid ) ) continue; - // 2. Collect parameters on the track edge - aPrms.clear(); - aItN = locMeshDS->GetNodes(); - while ( aItN->more() ) { - const SMDS_MeshNode* pNode = aItN->next(); - const SMDS_EdgePosition* pEPos = - static_cast( pNode->GetPosition().get() ); - double aT = pEPos->GetUParameter(); - aPrms.push_back( aT ); - } - list LPP; - //Extrusion_Error err = - MakeEdgePathPoints(aPrms, aTrackEdge,(aN1->GetID()==startNid), LPP); - LLPPs.push_back(LPP); - UsedNums.Add(k); - // update startN for search following egde - if( aN1->GetID() == startNid ) startNid = aN2->GetID(); - else startNid = aN1->GetID(); - break; + k++; + if(UsedNums.Contains(k)) continue; + aTrackEdge = TopoDS::Edge( Edges.Value(k) ); + SMESH_subMesh* locTrack = *itLSM; + SMESHDS_SubMesh* locMeshDS = locTrack->GetSubMeshDS(); + TopExp::Vertices( aTrackEdge, aV1, aV2 ); + aItN = locTrack->GetFather()->GetSubMesh(aV1)->GetSubMeshDS()->GetNodes(); + const SMDS_MeshNode* aN1 = aItN->next(); + aItN = locTrack->GetFather()->GetSubMesh(aV2)->GetSubMeshDS()->GetNodes(); + const SMDS_MeshNode* aN2 = aItN->next(); + // starting node must be aN1 or aN2 + if ( !( aN1->GetID() == startNid || aN2->GetID() == startNid ) ) continue; + // 2. Collect parameters on the track edge + aPrms.clear(); + aItN = locMeshDS->GetNodes(); + while ( aItN->more() ) { + const SMDS_MeshNode* pNode = aItN->next(); + const SMDS_EdgePosition* pEPos = + static_cast( pNode->GetPosition() ); + double aT = pEPos->GetUParameter(); + aPrms.push_back( aT ); + } + list LPP; + //Extrusion_Error err = + MakeEdgePathPoints(aPrms, aTrackEdge,(aN1->GetID()==startNid), LPP); + LLPPs.push_back(LPP); + UsedNums.Add(k); + // update startN for search following egde + if( aN1->GetID() == startNid ) startNid = aN2->GetID(); + else startNid = aN1->GetID(); + break; } } list< list >::iterator itLLPP = LLPPs.begin(); @@ -4256,12 +4925,12 @@ SMESH_MeshEditor::Extrusion_Error gp_Dir D1 = PP1.Tangent(); gp_Dir D2 = PP2.Tangent(); gp_Dir Dnew( gp_Vec( (D1.X()+D2.X())/2, (D1.Y()+D2.Y())/2, - (D1.Z()+D2.Z())/2 ) ); + (D1.Z()+D2.Z())/2 ) ); PP1.SetTangent(Dnew); fullList.push_back(PP1); itPP++; for(; itPP!=currList.end(); itPP++) { - fullList.push_back( *itPP ); + fullList.push_back( *itPP ); } PP1 = fullList.back(); fullList.pop_back(); @@ -4275,7 +4944,7 @@ SMESH_MeshEditor::Extrusion_Error } return MakeExtrElements(theElements, fullList, theHasAngles, theAngles, theLinearVariation, - theHasRefPoint, theRefPoint, theMakeGroups); + theHasRefPoint, theRefPoint, theMakeGroups); } @@ -4285,9 +4954,9 @@ SMESH_MeshEditor::Extrusion_Error //======================================================================= SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor::MakeEdgePathPoints(std::list& aPrms, - const TopoDS_Edge& aTrackEdge, - bool FirstIsStart, - list& LPP) + const TopoDS_Edge& aTrackEdge, + bool FirstIsStart, + list& LPP) { Standard_Real aTx1, aTx2, aL2, aTolVec, aTolVec2; aTolVec=1.e-7; @@ -4340,14 +5009,15 @@ SMESH_MeshEditor::MakeEdgePathPoints(std::list& aPrms, //======================================================================= SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor::MakeExtrElements(TIDSortedElemSet& theElements, - list& fullList, - const bool theHasAngles, - list& theAngles, - const bool theLinearVariation, - const bool theHasRefPoint, - const gp_Pnt& theRefPoint, - const bool theMakeGroups) + list& fullList, + const bool theHasAngles, + list& theAngles, + const bool theLinearVariation, + const bool theHasRefPoint, + const gp_Pnt& theRefPoint, + const bool theMakeGroups) { + MESSAGE("MakeExtrElements"); //cout<<"MakeExtrElements fullList.size() = "< aPPs(aNbTP); @@ -4395,26 +5065,26 @@ SMESH_MeshEditor::MakeExtrElements(TIDSortedElemSet& theElements, if ( !theHasRefPoint ) { aNb = 0; aGC.SetCoord( 0.,0.,0. ); - + itElem = theElements.begin(); for ( ; itElem != theElements.end(); itElem++ ) { const SMDS_MeshElement* elem = *itElem; - + SMDS_ElemIteratorPtr itN = elem->nodesIterator(); while ( itN->more() ) { - const SMDS_MeshNode* node = static_cast( itN->next() ); - aX = node->X(); - aY = node->Y(); - aZ = node->Z(); - - if ( mapNewNodes.find( node ) == mapNewNodes.end() ) { - list aLNx; - mapNewNodes[node] = aLNx; - // - gp_XYZ aXYZ( aX, aY, aZ ); - aGC += aXYZ; - ++aNb; - } + const SMDS_MeshNode* node = static_cast( itN->next() ); + aX = node->X(); + aY = node->Y(); + aZ = node->Z(); + + if ( mapNewNodes.find( node ) == mapNewNodes.end() ) { + list aLNx; + mapNewNodes[node] = aLNx; + // + gp_XYZ aXYZ( aX, aY, aZ ); + aGC += aXYZ; + ++aNb; + } } } aGC /= aNb; @@ -4443,66 +5113,67 @@ SMESH_MeshEditor::MakeExtrElements(TIDSortedElemSet& theElements, ++nodeIndex; // check if a node has been already processed const SMDS_MeshNode* node = - static_cast( itN->next() ); + static_cast( itN->next() ); TNodeOfNodeListMap::iterator nIt = mapNewNodes.find( node ); if ( nIt == mapNewNodes.end() ) { nIt = mapNewNodes.insert( make_pair( node, list() )).first; list& listNewNodes = nIt->second; - // make new nodes - aX = node->X(); aY = node->Y(); aZ = node->Z(); - - Standard_Real aAngle1x, aAngleT1T0, aTolAng; - gp_Pnt aP0x, aP1x, aPN0, aPN1, aV0x, aV1x; - gp_Ax1 anAx1, anAxT1T0; - gp_Dir aDT1x, aDT0x, aDT1T0; - - aTolAng=1.e-4; - - aV0x = aV0; - aPN0.SetCoord(aX, aY, aZ); - - const SMESH_MeshEditor_PathPoint& aPP0 = aPPs[0]; - aP0x = aPP0.Pnt(); - aDT0x= aPP0.Tangent(); - //cout<<"j = 0 PP: Pnt("< aTolAng) { - aDT1T0=aDT1x^aDT0x; - anAxT1T0.SetLocation( aV1x ); - anAxT1T0.SetDirection( aDT1T0 ); - aTrsfRotT1T0.SetRotation( anAxT1T0, aAngleT1T0 ); - - aPN1 = aPN1.Transformed( aTrsfRotT1T0 ); - } + // make new nodes + aX = node->X(); aY = node->Y(); aZ = node->Z(); + + Standard_Real aAngle1x, aAngleT1T0, aTolAng; + gp_Pnt aP0x, aP1x, aPN0, aPN1, aV0x, aV1x; + gp_Ax1 anAx1, anAxT1T0; + gp_Dir aDT1x, aDT0x, aDT1T0; + + aTolAng=1.e-4; + + aV0x = aV0; + aPN0.SetCoord(aX, aY, aZ); + + const SMESH_MeshEditor_PathPoint& aPP0 = aPPs[0]; + aP0x = aPP0.Pnt(); + aDT0x= aPP0.Tangent(); + //cout<<"j = 0 PP: Pnt("< aTolAng) { + aDT1T0=aDT1x^aDT0x; + anAxT1T0.SetLocation( aV1x ); + anAxT1T0.SetDirection( aDT1T0 ); + aTrsfRotT1T0.SetRotation( anAxT1T0, aAngleT1T0 ); + + aPN1 = aPN1.Transformed( aTrsfRotT1T0 ); + } - // rotation 2 - if ( theHasAngles ) { - anAx1.SetLocation( aV1x ); - anAx1.SetDirection( aDT1x ); - aTrsfRot.SetRotation( anAx1, aAngle1x ); + // rotation 2 + if ( theHasAngles ) { + anAx1.SetLocation( aV1x ); + anAx1.SetDirection( aDT1x ); + aTrsfRot.SetRotation( anAx1, aAngle1x ); - aPN1 = aPN1.Transformed( aTrsfRot ); - } + aPN1 = aPN1.Transformed( aTrsfRot ); + } - // make new node + // make new node + //MESSAGE("elem->IsQuadratic " << elem->IsQuadratic() << " " << elem->IsMediumNode(node)); if( elem->IsQuadratic() && !elem->IsMediumNode(node) ) { // create additional node double x = ( aPN1.X() + aPN0.X() )/2.; @@ -4513,19 +5184,19 @@ SMESH_MeshEditor::MakeExtrElements(TIDSortedElemSet& theElements, srcNodes.Append( node ); listNewNodes.push_back( newNode ); } - aX = aPN1.X(); - aY = aPN1.Y(); - aZ = aPN1.Z(); - const SMDS_MeshNode* newNode = aMesh->AddNode( aX, aY, aZ ); + aX = aPN1.X(); + aY = aPN1.Y(); + aZ = aPN1.Z(); + const SMDS_MeshNode* newNode = aMesh->AddNode( aX, aY, aZ ); myLastCreatedNodes.Append(newNode); srcNodes.Append( node ); - listNewNodes.push_back( newNode ); + listNewNodes.push_back( newNode ); - aPN0 = aPN1; - aP0x = aP1x; - aV0x = aV1x; - aDT0x = aDT1x; - } + aPN0 = aPN1; + aP0x = aP1x; + aV0x = aV1x; + aDT0x = aDT1x; + } } else { @@ -4580,7 +5251,7 @@ SMESH_MeshEditor::MakeExtrElements(TIDSortedElemSet& theElements, //purpose : auxilary for ExtrusionAlongTrack //======================================================================= void SMESH_MeshEditor::LinearAngleVariation(const int nbSteps, - list& Angles) + list& Angles) { int nbAngles = Angles.size(); if( nbSteps > nbAngles ) { @@ -4599,19 +5270,19 @@ void SMESH_MeshEditor::LinearAngleVariation(const int nbSteps, double angCurFloor = floor( angCur ); double angPrevFloor = floor( angPrev ); if ( angPrevFloor == angCurFloor ) - angle = rAn2St * theAngles[ int( angCurFloor ) ]; + angle = rAn2St * theAngles[ int( angCurFloor ) ]; else { - int iP = int( angPrevFloor ); - double angPrevCeil = ceil(angPrev); - angle = ( angPrevCeil - angPrev ) * theAngles[ iP ]; - - int iC = int( angCurFloor ); - if ( iC < nbAngles ) - angle += ( angCur - angCurFloor ) * theAngles[ iC ]; - - iP = int( angPrevCeil ); - while ( iC-- > iP ) - angle += theAngles[ iC ]; + int iP = int( angPrevFloor ); + double angPrevCeil = ceil(angPrev); + angle = ( angPrevCeil - angPrev ) * theAngles[ iP ]; + + int iC = int( angCurFloor ); + if ( iC < nbAngles ) + angle += ( angCur - angCurFloor ) * theAngles[ iC ]; + + iP = int( angPrevCeil ); + while ( iC-- > iP ) + angle += theAngles[ iC ]; } res.push_back(angle); angPrev = angCur; @@ -4624,10 +5295,17 @@ void SMESH_MeshEditor::LinearAngleVariation(const int nbSteps, } -//======================================================================= -//function : Transform -//purpose : -//======================================================================= +//================================================================================ +/*! + * \brief Move or copy theElements applying theTrsf to their nodes + * \param theElems - elements to transform, if theElems is empty then apply to all mesh nodes + * \param theTrsf - transformation to apply + * \param theCopy - if true, create translated copies of theElems + * \param theMakeGroups - if true and theCopy, create translated groups + * \param theTargetMesh - mesh to copy translated elements into + * \retval SMESH_MeshEditor::PGroupIDs - list of ids of created groups + */ +//================================================================================ SMESH_MeshEditor::PGroupIDs SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, @@ -4643,21 +5321,37 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, string groupPostfix; switch ( theTrsf.Form() ) { case gp_PntMirror: + MESSAGE("gp_PntMirror"); + needReverse = true; + groupPostfix = "mirrored"; + break; case gp_Ax1Mirror: + MESSAGE("gp_Ax1Mirror"); + groupPostfix = "mirrored"; + break; case gp_Ax2Mirror: + MESSAGE("gp_Ax2Mirror"); needReverse = true; groupPostfix = "mirrored"; break; case gp_Rotation: + MESSAGE("gp_Rotation"); groupPostfix = "rotated"; break; case gp_Translation: + MESSAGE("gp_Translation"); groupPostfix = "translated"; break; case gp_Scale: + MESSAGE("gp_Scale"); + groupPostfix = "scaled"; + break; + case gp_CompoundTrsf: // different scale by axis + MESSAGE("gp_CompoundTrsf"); groupPostfix = "scaled"; break; default: + MESSAGE("default"); needReverse = false; groupPostfix = "transformed"; } @@ -4665,7 +5359,7 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, SMESH_MeshEditor targetMeshEditor( theTargetMesh ); SMESHDS_Mesh* aTgtMesh = theTargetMesh ? theTargetMesh->GetMeshDS() : 0; SMESHDS_Mesh* aMesh = GetMeshDS(); - + // map old node to new one TNodeNodeMap nodeMap; @@ -4677,9 +5371,29 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, // source elements for each generated one SMESH_SequenceOfElemPtr srcElems, srcNodes; - // loop on theElems + // issue 021015: EDF 1578 SMESH: Free nodes are removed when translating a mesh + TIDSortedElemSet orphanNode; + + if ( theElems.empty() ) // transform the whole mesh + { + // add all elements + SMDS_ElemIteratorPtr eIt = aMesh->elementsIterator(); + while ( eIt->more() ) theElems.insert( eIt->next() ); + // add orphan nodes + SMDS_NodeIteratorPtr nIt = aMesh->nodesIterator(); + while ( nIt->more() ) + { + const SMDS_MeshNode* node = nIt->next(); + if ( node->NbInverseElements() == 0) + orphanNode.insert( node ); + } + } + + // loop on elements to transform nodes : first orphan nodes then elems TIDSortedElemSet::iterator itElem; - for ( itElem = theElems.begin(); itElem != theElems.end(); itElem++ ) { + TIDSortedElemSet *elements[] = {&orphanNode, &theElems }; + for (int i=0; i<2; i++) + for ( itElem = elements[i]->begin(); itElem != elements[i]->end(); itElem++ ) { const SMDS_MeshElement* elem = *itElem; if ( !elem ) continue; @@ -4688,8 +5402,8 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, SMDS_ElemIteratorPtr itN = elem->nodesIterator(); while ( itN->more() ) { - // check if a node has been already transformed const SMDS_MeshNode* node = cast2Node( itN->next() ); + // check if a node has been already transformed pair n2n_isnew = nodeMap.insert( make_pair ( node, node )); if ( !n2n_isnew.second ) @@ -4739,7 +5453,7 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, theElems.insert( *invElemIt ); // replicate or reverse elements - + // TODO revoir ordre reverse vtk enum { REV_TETRA = 0, // = nbNodes - 4 REV_PYRAMID = 1, // = nbNodes - 4 @@ -4747,7 +5461,7 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, REV_FACE = 3, REV_HEXA = 4, // = nbNodes - 4 FORWARD = 5 - }; + }; int index[][8] = { { 2, 1, 0, 3, 4, 0, 0, 0 }, // REV_TETRA { 2, 1, 0, 3, 4, 0, 0, 0 }, // REV_PYRAMID @@ -4807,8 +5521,8 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, case SMDSAbs_Volume: { // ATTENTION: Reversing is not yet done!!! - const SMDS_PolyhedralVolumeOfNodes* aPolyedre = - dynamic_cast( elem ); + const SMDS_VtkVolume* aPolyedre = + dynamic_cast( elem ); if (!aPolyedre) { MESSAGE("Warning: bad volumic element"); continue; @@ -4848,19 +5562,19 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, } } break; - default:; + default:; + } + continue; } - continue; - } - - // Regular elements - int* i = index[ FORWARD ]; - if ( needReverse && nbNodes > 2) // reverse mirrored faces and volumes - if ( elemType == SMDSAbs_Face ) - i = index[ REV_FACE ]; - else - i = index[ nbNodes - 4 ]; + // Regular elements + int* i = index[ FORWARD ]; + if ( needReverse && nbNodes > 2) {// reverse mirrored faces and volumes + if ( elemType == SMDSAbs_Face ) + i = index[ REV_FACE ]; + else + i = index[ nbNodes - 4 ]; + } if(elem->IsQuadratic()) { static int anIds[] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19}; i = anIds; @@ -4919,10 +5633,8 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, } } else if ( theCopy ) { - if ( SMDS_MeshElement* copy = AddElement( nodes, elem->GetType(), elem->IsPoly() )) { - myLastCreatedElems.Append( copy ); + if ( AddElement( nodes, elem->GetType(), elem->IsPoly() )) srcElems.Append( elem ); - } } else { // reverse element as it was reversed by transformation @@ -4940,6 +5652,332 @@ SMESH_MeshEditor::Transform (TIDSortedElemSet & theElems, return newGroupIDs; } + +////======================================================================= +////function : Scale +////purpose : +////======================================================================= +// +//SMESH_MeshEditor::PGroupIDs +//SMESH_MeshEditor::Scale (TIDSortedElemSet & theElems, +// const gp_Pnt& thePoint, +// const std::list& theScaleFact, +// const bool theCopy, +// const bool theMakeGroups, +// SMESH_Mesh* theTargetMesh) +//{ +// MESSAGE("Scale"); +// myLastCreatedElems.Clear(); +// myLastCreatedNodes.Clear(); +// +// SMESH_MeshEditor targetMeshEditor( theTargetMesh ); +// SMESHDS_Mesh* aTgtMesh = theTargetMesh ? theTargetMesh->GetMeshDS() : 0; +// SMESHDS_Mesh* aMesh = GetMeshDS(); +// +// double scaleX=1.0, scaleY=1.0, scaleZ=1.0; +// std::list::const_iterator itS = theScaleFact.begin(); +// scaleX = (*itS); +// if(theScaleFact.size()==1) { +// scaleY = (*itS); +// scaleZ= (*itS); +// } +// if(theScaleFact.size()==2) { +// itS++; +// scaleY = (*itS); +// scaleZ= (*itS); +// } +// if(theScaleFact.size()>2) { +// itS++; +// scaleY = (*itS); +// itS++; +// scaleZ= (*itS); +// } +// +// // map old node to new one +// TNodeNodeMap nodeMap; +// +// // elements sharing moved nodes; those of them which have all +// // nodes mirrored but are not in theElems are to be reversed +// TIDSortedElemSet inverseElemSet; +// +// // source elements for each generated one +// SMESH_SequenceOfElemPtr srcElems, srcNodes; +// +// // loop on theElems +// TIDSortedElemSet::iterator itElem; +// for ( itElem = theElems.begin(); itElem != theElems.end(); itElem++ ) { +// const SMDS_MeshElement* elem = *itElem; +// if ( !elem ) +// continue; +// +// // loop on elem nodes +// SMDS_ElemIteratorPtr itN = elem->nodesIterator(); +// while ( itN->more() ) { +// +// // check if a node has been already transformed +// const SMDS_MeshNode* node = cast2Node( itN->next() ); +// pair n2n_isnew = +// nodeMap.insert( make_pair ( node, node )); +// if ( !n2n_isnew.second ) +// continue; +// +// //double coord[3]; +// //coord[0] = node->X(); +// //coord[1] = node->Y(); +// //coord[2] = node->Z(); +// //theTrsf.Transforms( coord[0], coord[1], coord[2] ); +// double dx = (node->X() - thePoint.X()) * scaleX; +// double dy = (node->Y() - thePoint.Y()) * scaleY; +// double dz = (node->Z() - thePoint.Z()) * scaleZ; +// if ( theTargetMesh ) { +// //const SMDS_MeshNode * newNode = aTgtMesh->AddNode( coord[0], coord[1], coord[2] ); +// const SMDS_MeshNode * newNode = +// aTgtMesh->AddNode( thePoint.X()+dx, thePoint.Y()+dy, thePoint.Z()+dz ); +// n2n_isnew.first->second = newNode; +// myLastCreatedNodes.Append(newNode); +// srcNodes.Append( node ); +// } +// else if ( theCopy ) { +// //const SMDS_MeshNode * newNode = aMesh->AddNode( coord[0], coord[1], coord[2] ); +// const SMDS_MeshNode * newNode = +// aMesh->AddNode( thePoint.X()+dx, thePoint.Y()+dy, thePoint.Z()+dz ); +// n2n_isnew.first->second = newNode; +// myLastCreatedNodes.Append(newNode); +// srcNodes.Append( node ); +// } +// else { +// //aMesh->MoveNode( node, coord[0], coord[1], coord[2] ); +// aMesh->MoveNode( node, thePoint.X()+dx, thePoint.Y()+dy, thePoint.Z()+dz ); +// // node position on shape becomes invalid +// const_cast< SMDS_MeshNode* > ( node )->SetPosition +// ( SMDS_SpacePosition::originSpacePosition() ); +// } +// +// // keep inverse elements +// //if ( !theCopy && !theTargetMesh && needReverse ) { +// // SMDS_ElemIteratorPtr invElemIt = node->GetInverseElementIterator(); +// // while ( invElemIt->more() ) { +// // const SMDS_MeshElement* iel = invElemIt->next(); +// // inverseElemSet.insert( iel ); +// // } +// //} +// } +// } +// +// // either create new elements or reverse mirrored ones +// //if ( !theCopy && !needReverse && !theTargetMesh ) +// if ( !theCopy && !theTargetMesh ) +// return PGroupIDs(); +// +// TIDSortedElemSet::iterator invElemIt = inverseElemSet.begin(); +// for ( ; invElemIt != inverseElemSet.end(); invElemIt++ ) +// theElems.insert( *invElemIt ); +// +// // replicate or reverse elements +// +// enum { +// REV_TETRA = 0, // = nbNodes - 4 +// REV_PYRAMID = 1, // = nbNodes - 4 +// REV_PENTA = 2, // = nbNodes - 4 +// REV_FACE = 3, +// REV_HEXA = 4, // = nbNodes - 4 +// FORWARD = 5 +// }; +// int index[][8] = { +// { 2, 1, 0, 3, 4, 0, 0, 0 }, // REV_TETRA +// { 2, 1, 0, 3, 4, 0, 0, 0 }, // REV_PYRAMID +// { 2, 1, 0, 5, 4, 3, 0, 0 }, // REV_PENTA +// { 2, 1, 0, 3, 0, 0, 0, 0 }, // REV_FACE +// { 2, 1, 0, 3, 6, 5, 4, 7 }, // REV_HEXA +// { 0, 1, 2, 3, 4, 5, 6, 7 } // FORWARD +// }; +// +// for ( itElem = theElems.begin(); itElem != theElems.end(); itElem++ ) +// { +// const SMDS_MeshElement* elem = *itElem; +// if ( !elem || elem->GetType() == SMDSAbs_Node ) +// continue; +// +// int nbNodes = elem->NbNodes(); +// int elemType = elem->GetType(); +// +// if (elem->IsPoly()) { +// // Polygon or Polyhedral Volume +// switch ( elemType ) { +// case SMDSAbs_Face: +// { +// vector poly_nodes (nbNodes); +// int iNode = 0; +// SMDS_ElemIteratorPtr itN = elem->nodesIterator(); +// while (itN->more()) { +// const SMDS_MeshNode* node = +// static_cast(itN->next()); +// TNodeNodeMap::iterator nodeMapIt = nodeMap.find(node); +// if (nodeMapIt == nodeMap.end()) +// break; // not all nodes transformed +// //if (needReverse) { +// // // reverse mirrored faces and volumes +// // poly_nodes[nbNodes - iNode - 1] = (*nodeMapIt).second; +// //} else { +// poly_nodes[iNode] = (*nodeMapIt).second; +// //} +// iNode++; +// } +// if ( iNode != nbNodes ) +// continue; // not all nodes transformed +// +// if ( theTargetMesh ) { +// myLastCreatedElems.Append(aTgtMesh->AddPolygonalFace(poly_nodes)); +// srcElems.Append( elem ); +// } +// else if ( theCopy ) { +// myLastCreatedElems.Append(aMesh->AddPolygonalFace(poly_nodes)); +// srcElems.Append( elem ); +// } +// else { +// aMesh->ChangePolygonNodes(elem, poly_nodes); +// } +// } +// break; +// case SMDSAbs_Volume: +// { +// // ATTENTION: Reversing is not yet done!!! +// const SMDS_VtkVolume* aPolyedre = +// dynamic_cast( elem ); +// if (!aPolyedre) { +// MESSAGE("Warning: bad volumic element"); +// continue; +// } +// +// vector poly_nodes; +// vector quantities; +// +// bool allTransformed = true; +// int nbFaces = aPolyedre->NbFaces(); +// for (int iface = 1; iface <= nbFaces && allTransformed; iface++) { +// int nbFaceNodes = aPolyedre->NbFaceNodes(iface); +// for (int inode = 1; inode <= nbFaceNodes && allTransformed; inode++) { +// const SMDS_MeshNode* node = aPolyedre->GetFaceNode(iface, inode); +// TNodeNodeMap::iterator nodeMapIt = nodeMap.find(node); +// if (nodeMapIt == nodeMap.end()) { +// allTransformed = false; // not all nodes transformed +// } else { +// poly_nodes.push_back((*nodeMapIt).second); +// } +// } +// quantities.push_back(nbFaceNodes); +// } +// if ( !allTransformed ) +// continue; // not all nodes transformed +// +// if ( theTargetMesh ) { +// myLastCreatedElems.Append(aTgtMesh->AddPolyhedralVolume(poly_nodes, quantities)); +// srcElems.Append( elem ); +// } +// else if ( theCopy ) { +// myLastCreatedElems.Append(aMesh->AddPolyhedralVolume(poly_nodes, quantities)); +// srcElems.Append( elem ); +// } +// else { +// aMesh->ChangePolyhedronNodes(elem, poly_nodes, quantities); +// } +// } +// break; +// default:; +// } +// continue; +// } +// +// // Regular elements +// int* i = index[ FORWARD ]; +// //if ( needReverse && nbNodes > 2) // reverse mirrored faces and volumes +// // if ( elemType == SMDSAbs_Face ) +// // i = index[ REV_FACE ]; +// // else +// // i = index[ nbNodes - 4 ]; +// +// if(elem->IsQuadratic()) { +// static int anIds[] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19}; +// i = anIds; +// //if(needReverse) { +// // if(nbNodes==3) { // quadratic edge +// // static int anIds[] = {1,0,2}; +// // i = anIds; +// // } +// // else if(nbNodes==6) { // quadratic triangle +// // static int anIds[] = {0,2,1,5,4,3}; +// // i = anIds; +// // } +// // else if(nbNodes==8) { // quadratic quadrangle +// // static int anIds[] = {0,3,2,1,7,6,5,4}; +// // i = anIds; +// // } +// // else if(nbNodes==10) { // quadratic tetrahedron of 10 nodes +// // static int anIds[] = {0,2,1,3,6,5,4,7,9,8}; +// // i = anIds; +// // } +// // else if(nbNodes==13) { // quadratic pyramid of 13 nodes +// // static int anIds[] = {0,3,2,1,4,8,7,6,5,9,12,11,10}; +// // i = anIds; +// // } +// // else if(nbNodes==15) { // quadratic pentahedron with 15 nodes +// // static int anIds[] = {0,2,1,3,5,4,8,7,6,11,10,9,12,14,13}; +// // i = anIds; +// // } +// // else { // nbNodes==20 - quadratic hexahedron with 20 nodes +// // static int anIds[] = {0,3,2,1,4,7,6,5,11,10,9,8,15,14,13,12,16,19,18,17}; +// // i = anIds; +// // } +// //} +// } +// +// // find transformed nodes +// vector nodes(nbNodes); +// int iNode = 0; +// SMDS_ElemIteratorPtr itN = elem->nodesIterator(); +// while ( itN->more() ) { +// const SMDS_MeshNode* node = +// static_cast( itN->next() ); +// TNodeNodeMap::iterator nodeMapIt = nodeMap.find( node ); +// if ( nodeMapIt == nodeMap.end() ) +// break; // not all nodes transformed +// nodes[ i [ iNode++ ]] = (*nodeMapIt).second; +// } +// if ( iNode != nbNodes ) +// continue; // not all nodes transformed +// +// if ( theTargetMesh ) { +// if ( SMDS_MeshElement* copy = +// targetMeshEditor.AddElement( nodes, elem->GetType(), elem->IsPoly() )) { +// myLastCreatedElems.Append( copy ); +// srcElems.Append( elem ); +// } +// } +// else if ( theCopy ) { +// if ( SMDS_MeshElement* copy = AddElement( nodes, elem->GetType(), elem->IsPoly() )) { +// myLastCreatedElems.Append( copy ); +// srcElems.Append( elem ); +// } +// } +// else { +// // reverse element as it was reversed by transformation +// if ( nbNodes > 2 ) +// aMesh->ChangeElementNodes( elem, &nodes[0], nbNodes ); +// } +// } +// +// PGroupIDs newGroupIDs; +// +// if ( theMakeGroups && theCopy || +// theMakeGroups && theTargetMesh ) { +// string groupPostfix = "scaled"; +// newGroupIDs = generateGroups( srcNodes, srcElems, groupPostfix, theTargetMesh ); +// } +// +// return newGroupIDs; +//} + + //======================================================================= /*! * \brief Create groups of elements made during transformation @@ -5023,180 +6061,1141 @@ SMESH_MeshEditor::generateGroups(const SMESH_SequenceOfElemPtr& nodeGens, SMESHDS_GroupBase* oldGroup = gOldNew->first; if ( oldGroup->Contains( sourceElem )) // sourceElem in oldGroup { - SMDS_MeshGroup* & newGroup = gOldNew->second; - if ( !newGroup )// create a new group + SMDS_MeshGroup* & newGroup = gOldNew->second; + if ( !newGroup )// create a new group + { + // make a name + string name = oldGroup->GetStoreName(); + if ( !targetMesh ) { + name += "_"; + name += postfix; + int nb = 0; + while ( !groupNames.insert( name ).second ) // name exists + { + if ( nb == 0 ) { + name += "_1"; + } + else { + TCollection_AsciiString nbStr(nb+1); + name.resize( name.rfind('_')+1 ); + name += nbStr.ToCString(); + } + ++nb; + } + } + // make a group + int id; + SMESH_Group* group = mesh->AddGroup( resultElems.back()->GetType(), + name.c_str(), id ); + SMESHDS_Group* groupDS = static_cast(group->GetGroupDS()); + newGroup = & groupDS->SMDSGroup(); + newGroupIDs->push_back( id ); + } + + // fill in a new group + list< const SMDS_MeshElement* >::iterator resLast = resultElems.end(), resElemIt; + for ( resElemIt = resultElems.begin(); resElemIt != resLast; ++resElemIt ) + newGroup->Add( *resElemIt ); + } + } + } // loop on created elements + }// loop on nodes and elements + + return newGroupIDs; +} + +//================================================================================ +/*! + * \brief Return list of group of nodes close to each other within theTolerance + * Search among theNodes or in the whole mesh if theNodes is empty using + * an Octree algorithm + */ +//================================================================================ + +void SMESH_MeshEditor::FindCoincidentNodes (TIDSortedNodeSet & theNodes, + const double theTolerance, + TListOfListOfNodes & theGroupsOfNodes) +{ + myLastCreatedElems.Clear(); + myLastCreatedNodes.Clear(); + + if ( theNodes.empty() ) + { // get all nodes in the mesh + SMDS_NodeIteratorPtr nIt = GetMeshDS()->nodesIterator(/*idInceasingOrder=*/true); + while ( nIt->more() ) + theNodes.insert( theNodes.end(),nIt->next()); + } + + SMESH_OctreeNode::FindCoincidentNodes ( theNodes, &theGroupsOfNodes, theTolerance); +} + + +//======================================================================= +/*! + * \brief Implementation of search for the node closest to point + */ +//======================================================================= + +struct SMESH_NodeSearcherImpl: public SMESH_NodeSearcher +{ + //--------------------------------------------------------------------- + /*! + * \brief Constructor + */ + SMESH_NodeSearcherImpl( const SMESHDS_Mesh* theMesh ) + { + myMesh = ( SMESHDS_Mesh* ) theMesh; + + TIDSortedNodeSet nodes; + if ( theMesh ) { + SMDS_NodeIteratorPtr nIt = theMesh->nodesIterator(/*idInceasingOrder=*/true); + while ( nIt->more() ) + nodes.insert( nodes.end(), nIt->next() ); + } + myOctreeNode = new SMESH_OctreeNode(nodes) ; + + // get max size of a leaf box + SMESH_OctreeNode* tree = myOctreeNode; + while ( !tree->isLeaf() ) + { + SMESH_OctreeNodeIteratorPtr cIt = tree->GetChildrenIterator(); + if ( cIt->more() ) + tree = cIt->next(); + } + myHalfLeafSize = tree->maxSize() / 2.; + } + + //--------------------------------------------------------------------- + /*! + * \brief Move node and update myOctreeNode accordingly + */ + void MoveNode( const SMDS_MeshNode* node, const gp_Pnt& toPnt ) + { + myOctreeNode->UpdateByMoveNode( node, toPnt ); + myMesh->MoveNode( node, toPnt.X(), toPnt.Y(), toPnt.Z() ); + } + + //--------------------------------------------------------------------- + /*! + * \brief Do it's job + */ + const SMDS_MeshNode* FindClosestTo( const gp_Pnt& thePnt ) + { + map dist2Nodes; + myOctreeNode->NodesAround( thePnt.Coord(), dist2Nodes, myHalfLeafSize ); + if ( !dist2Nodes.empty() ) + return dist2Nodes.begin()->second; + list nodes; + //myOctreeNode->NodesAround( &tgtNode, &nodes, myHalfLeafSize ); + + double minSqDist = DBL_MAX; + if ( nodes.empty() ) // get all nodes of OctreeNode's closest to thePnt + { + // sort leafs by their distance from thePnt + typedef map< double, SMESH_OctreeNode* > TDistTreeMap; + TDistTreeMap treeMap; + list< SMESH_OctreeNode* > treeList; + list< SMESH_OctreeNode* >::iterator trIt; + treeList.push_back( myOctreeNode ); + + gp_XYZ pointNode( thePnt.X(), thePnt.Y(), thePnt.Z() ); + bool pointInside = myOctreeNode->isInside( pointNode, myHalfLeafSize ); + for ( trIt = treeList.begin(); trIt != treeList.end(); ++trIt) + { + SMESH_OctreeNode* tree = *trIt; + if ( !tree->isLeaf() ) // put children to the queue + { + if ( pointInside && !tree->isInside( pointNode, myHalfLeafSize )) continue; + SMESH_OctreeNodeIteratorPtr cIt = tree->GetChildrenIterator(); + while ( cIt->more() ) + treeList.push_back( cIt->next() ); + } + else if ( tree->NbNodes() ) // put a tree to the treeMap + { + const Bnd_B3d& box = tree->getBox(); + double sqDist = thePnt.SquareDistance( 0.5 * ( box.CornerMin() + box.CornerMax() )); + pair it_in = treeMap.insert( make_pair( sqDist, tree )); + if ( !it_in.second ) // not unique distance to box center + treeMap.insert( it_in.first, make_pair( sqDist + 1e-13*treeMap.size(), tree )); + } + } + // find distance after which there is no sense to check tree's + double sqLimit = DBL_MAX; + TDistTreeMap::iterator sqDist_tree = treeMap.begin(); + if ( treeMap.size() > 5 ) { + SMESH_OctreeNode* closestTree = sqDist_tree->second; + const Bnd_B3d& box = closestTree->getBox(); + double limit = sqrt( sqDist_tree->first ) + sqrt ( box.SquareExtent() ); + sqLimit = limit * limit; + } + // get all nodes from trees + for ( ; sqDist_tree != treeMap.end(); ++sqDist_tree) { + if ( sqDist_tree->first > sqLimit ) + break; + SMESH_OctreeNode* tree = sqDist_tree->second; + tree->NodesAround( tree->GetNodeIterator()->next(), &nodes ); + } + } + // find closest among nodes + minSqDist = DBL_MAX; + const SMDS_MeshNode* closestNode = 0; + list::iterator nIt = nodes.begin(); + for ( ; nIt != nodes.end(); ++nIt ) { + double sqDist = thePnt.SquareDistance( SMESH_MeshEditor::TNodeXYZ( *nIt ) ); + if ( minSqDist > sqDist ) { + closestNode = *nIt; + minSqDist = sqDist; + } + } + return closestNode; + } + + //--------------------------------------------------------------------- + /*! + * \brief Destructor + */ + ~SMESH_NodeSearcherImpl() { delete myOctreeNode; } + + //--------------------------------------------------------------------- + /*! + * \brief Return the node tree + */ + const SMESH_OctreeNode* getTree() const { return myOctreeNode; } + +private: + SMESH_OctreeNode* myOctreeNode; + SMESHDS_Mesh* myMesh; + double myHalfLeafSize; // max size of a leaf box +}; + +//======================================================================= +/*! + * \brief Return SMESH_NodeSearcher + */ +//======================================================================= + +SMESH_NodeSearcher* SMESH_MeshEditor::GetNodeSearcher() +{ + return new SMESH_NodeSearcherImpl( GetMeshDS() ); +} + +// ======================================================================== +namespace // Utils used in SMESH_ElementSearcherImpl::FindElementsByPoint() +{ + const int MaxNbElemsInLeaf = 10; // maximal number of elements in a leaf of tree + const int MaxLevel = 7; // maximal tree height -> nb terminal boxes: 8^7 = 2097152 + const double NodeRadius = 1e-9; // to enlarge bnd box of element + + //======================================================================= + /*! + * \brief Octal tree of bounding boxes of elements + */ + //======================================================================= + + class ElementBndBoxTree : public SMESH_Octree + { + public: + + ElementBndBoxTree(const SMDS_Mesh& mesh, SMDSAbs_ElementType elemType, double tolerance = NodeRadius ); + void getElementsNearPoint( const gp_Pnt& point, TIDSortedElemSet& foundElems); + void getElementsNearLine ( const gp_Ax1& line, TIDSortedElemSet& foundElems); + ~ElementBndBoxTree(); + + protected: + ElementBndBoxTree() {} + SMESH_Octree* allocateOctreeChild() const { return new ElementBndBoxTree; } + void buildChildrenData(); + Bnd_B3d* buildRootBox(); + private: + //!< Bounding box of element + struct ElementBox : public Bnd_B3d + { + const SMDS_MeshElement* _element; + int _refCount; // an ElementBox can be included in several tree branches + ElementBox(const SMDS_MeshElement* elem, double tolerance); + }; + vector< ElementBox* > _elements; + }; + + //================================================================================ + /*! + * \brief ElementBndBoxTree creation + */ + //================================================================================ + + ElementBndBoxTree::ElementBndBoxTree(const SMDS_Mesh& mesh, SMDSAbs_ElementType elemType, double tolerance) + :SMESH_Octree( new SMESH_Octree::Limit( MaxLevel, /*minSize=*/0. )) + { + int nbElems = mesh.GetMeshInfo().NbElements( elemType ); + _elements.reserve( nbElems ); + + SMDS_ElemIteratorPtr elemIt = mesh.elementsIterator( elemType ); + while ( elemIt->more() ) + _elements.push_back( new ElementBox( elemIt->next(),tolerance )); + + if ( _elements.size() > MaxNbElemsInLeaf ) + compute(); + else + myIsLeaf = true; + } + + //================================================================================ + /*! + * \brief Destructor + */ + //================================================================================ + + ElementBndBoxTree::~ElementBndBoxTree() + { + for ( int i = 0; i < _elements.size(); ++i ) + if ( --_elements[i]->_refCount <= 0 ) + delete _elements[i]; + } + + //================================================================================ + /*! + * \brief Return the maximal box + */ + //================================================================================ + + Bnd_B3d* ElementBndBoxTree::buildRootBox() + { + Bnd_B3d* box = new Bnd_B3d; + for ( int i = 0; i < _elements.size(); ++i ) + box->Add( *_elements[i] ); + return box; + } + + //================================================================================ + /*! + * \brief Redistrubute element boxes among children + */ + //================================================================================ + + void ElementBndBoxTree::buildChildrenData() + { + for ( int i = 0; i < _elements.size(); ++i ) + { + for (int j = 0; j < 8; j++) + { + if ( !_elements[i]->IsOut( myChildren[j]->getBox() )) + { + _elements[i]->_refCount++; + ((ElementBndBoxTree*)myChildren[j])->_elements.push_back( _elements[i]); + } + } + _elements[i]->_refCount--; + } + _elements.clear(); + + for (int j = 0; j < 8; j++) + { + ElementBndBoxTree* child = static_cast( myChildren[j]); + if ( child->_elements.size() <= MaxNbElemsInLeaf ) + child->myIsLeaf = true; + + if ( child->_elements.capacity() - child->_elements.size() > 1000 ) + child->_elements.resize( child->_elements.size() ); // compact + } + } + + //================================================================================ + /*! + * \brief Return elements which can include the point + */ + //================================================================================ + + void ElementBndBoxTree::getElementsNearPoint( const gp_Pnt& point, + TIDSortedElemSet& foundElems) + { + if ( level() && getBox().IsOut( point.XYZ() )) + return; + + if ( isLeaf() ) + { + for ( int i = 0; i < _elements.size(); ++i ) + if ( !_elements[i]->IsOut( point.XYZ() )) + foundElems.insert( _elements[i]->_element ); + } + else + { + for (int i = 0; i < 8; i++) + ((ElementBndBoxTree*) myChildren[i])->getElementsNearPoint( point, foundElems ); + } + } + + //================================================================================ + /*! + * \brief Return elements which can be intersected by the line + */ + //================================================================================ + + void ElementBndBoxTree::getElementsNearLine( const gp_Ax1& line, + TIDSortedElemSet& foundElems) + { + if ( level() && getBox().IsOut( line )) + return; + + if ( isLeaf() ) + { + for ( int i = 0; i < _elements.size(); ++i ) + if ( !_elements[i]->IsOut( line )) + foundElems.insert( _elements[i]->_element ); + } + else + { + for (int i = 0; i < 8; i++) + ((ElementBndBoxTree*) myChildren[i])->getElementsNearLine( line, foundElems ); + } + } + + //================================================================================ + /*! + * \brief Construct the element box + */ + //================================================================================ + + ElementBndBoxTree::ElementBox::ElementBox(const SMDS_MeshElement* elem, double tolerance) + { + _element = elem; + _refCount = 1; + SMDS_ElemIteratorPtr nIt = elem->nodesIterator(); + while ( nIt->more() ) + Add( SMESH_MeshEditor::TNodeXYZ( cast2Node( nIt->next() ))); + Enlarge( tolerance ); + } + +} // namespace + +//======================================================================= +/*! + * \brief Implementation of search for the elements by point and + * of classification of point in 2D mesh + */ +//======================================================================= + +struct SMESH_ElementSearcherImpl: public SMESH_ElementSearcher +{ + SMESHDS_Mesh* _mesh; + ElementBndBoxTree* _ebbTree; + SMESH_NodeSearcherImpl* _nodeSearcher; + SMDSAbs_ElementType _elementType; + double _tolerance; + bool _outerFacesFound; + set _outerFaces; // empty means "no internal faces at all" + + SMESH_ElementSearcherImpl( SMESHDS_Mesh& mesh ) + : _mesh(&mesh),_ebbTree(0),_nodeSearcher(0), _tolerance(-1), _outerFacesFound(false) {} + ~SMESH_ElementSearcherImpl() + { + if ( _ebbTree ) delete _ebbTree; _ebbTree = 0; + if ( _nodeSearcher ) delete _nodeSearcher; _nodeSearcher = 0; + } + virtual int FindElementsByPoint(const gp_Pnt& point, + SMDSAbs_ElementType type, + vector< const SMDS_MeshElement* >& foundElements); + virtual TopAbs_State GetPointState(const gp_Pnt& point); + + void GetElementsNearLine( const gp_Ax1& line, + SMDSAbs_ElementType type, + vector< const SMDS_MeshElement* >& foundElems); + double getTolerance(); + bool getIntersParamOnLine(const gp_Lin& line, const SMDS_MeshElement* face, + const double tolerance, double & param); + void findOuterBoundary(const SMDS_MeshElement* anyOuterFace); + bool isOuterBoundary(const SMDS_MeshElement* face) const + { + return _outerFaces.empty() || _outerFaces.count(face); + } + struct TInters //!< data of intersection of the line and the mesh face (used in GetPointState()) + { + const SMDS_MeshElement* _face; + gp_Vec _faceNorm; + bool _coincides; //!< the line lays in face plane + TInters(const SMDS_MeshElement* face, const gp_Vec& faceNorm, bool coinc=false) + : _face(face), _faceNorm( faceNorm ), _coincides( coinc ) {} + }; + struct TFaceLink //!< link and faces sharing it (used in findOuterBoundary()) + { + SMESH_TLink _link; + TIDSortedElemSet _faces; + TFaceLink( const SMDS_MeshNode* n1, const SMDS_MeshNode* n2, const SMDS_MeshElement* face) + : _link( n1, n2 ), _faces( &face, &face + 1) {} + }; +}; + +ostream& operator<< (ostream& out, const SMESH_ElementSearcherImpl::TInters& i) +{ + return out << "TInters(face=" << ( i._face ? i._face->GetID() : 0) + << ", _coincides="<GetMeshInfo(); + + _tolerance = 0; + if ( _nodeSearcher && meshInfo.NbNodes() > 1 ) + { + double boxSize = _nodeSearcher->getTree()->maxSize(); + _tolerance = 1e-8 * boxSize/* / meshInfo.NbNodes()*/; + } + else if ( _ebbTree && meshInfo.NbElements() > 0 ) + { + double boxSize = _ebbTree->maxSize(); + _tolerance = 1e-8 * boxSize/* / meshInfo.NbElements()*/; + } + if ( _tolerance == 0 ) + { + // define tolerance by size of a most complex element + int complexType = SMDSAbs_Volume; + while ( complexType > SMDSAbs_All && + meshInfo.NbElements( SMDSAbs_ElementType( complexType )) < 1 ) + --complexType; + if ( complexType == SMDSAbs_All ) return 0; // empty mesh + double elemSize; + if ( complexType == int( SMDSAbs_Node )) + { + SMDS_NodeIteratorPtr nodeIt = _mesh->nodesIterator(); + elemSize = 1; + if ( meshInfo.NbNodes() > 2 ) + elemSize = SMESH_MeshEditor::TNodeXYZ( nodeIt->next() ).Distance( nodeIt->next() ); + } + else + { + SMDS_ElemIteratorPtr elemIt = + _mesh->elementsIterator( SMDSAbs_ElementType( complexType )); + const SMDS_MeshElement* elem = elemIt->next(); + SMDS_ElemIteratorPtr nodeIt = elem->nodesIterator(); + SMESH_MeshEditor::TNodeXYZ n1( cast2Node( nodeIt->next() )); + while ( nodeIt->more() ) + { + double dist = n1.Distance( cast2Node( nodeIt->next() )); + elemSize = max( dist, elemSize ); + } + } + _tolerance = 1e-4 * elemSize; + } + } + return _tolerance; +} + +//================================================================================ +/*! + * \brief Find intersection of the line and an edge of face and return parameter on line + */ +//================================================================================ + +bool SMESH_ElementSearcherImpl::getIntersParamOnLine(const gp_Lin& line, + const SMDS_MeshElement* face, + const double tol, + double & param) +{ + int nbInts = 0; + param = 0; + + GeomAPI_ExtremaCurveCurve anExtCC; + Handle(Geom_Curve) lineCurve = new Geom_Line( line ); + + int nbNodes = face->IsQuadratic() ? face->NbNodes()/2 : face->NbNodes(); + for ( int i = 0; i < nbNodes && nbInts < 2; ++i ) + { + GC_MakeSegment edge( SMESH_MeshEditor::TNodeXYZ( face->GetNode( i )), + SMESH_MeshEditor::TNodeXYZ( face->GetNode( (i+1)%nbNodes) )); + anExtCC.Init( lineCurve, edge); + if ( anExtCC.NbExtrema() > 0 && anExtCC.LowerDistance() <= tol) + { + Quantity_Parameter pl, pe; + anExtCC.LowerDistanceParameters( pl, pe ); + param += pl; + if ( ++nbInts == 2 ) + break; + } + } + if ( nbInts > 0 ) param /= nbInts; + return nbInts > 0; +} +//================================================================================ +/*! + * \brief Find all faces belonging to the outer boundary of mesh + */ +//================================================================================ + +void SMESH_ElementSearcherImpl::findOuterBoundary(const SMDS_MeshElement* outerFace) +{ + if ( _outerFacesFound ) return; + + // Collect all outer faces by passing from one outer face to another via their links + // and BTW find out if there are internal faces at all. + + // checked links and links where outer boundary meets internal one + set< SMESH_TLink > visitedLinks, seamLinks; + + // links to treat with already visited faces sharing them + list < TFaceLink > startLinks; + + // load startLinks with the first outerFace + startLinks.push_back( TFaceLink( outerFace->GetNode(0), outerFace->GetNode(1), outerFace)); + _outerFaces.insert( outerFace ); + + TIDSortedElemSet emptySet; + while ( !startLinks.empty() ) + { + const SMESH_TLink& link = startLinks.front()._link; + TIDSortedElemSet& faces = startLinks.front()._faces; + + outerFace = *faces.begin(); + // find other faces sharing the link + const SMDS_MeshElement* f; + while (( f = SMESH_MeshEditor::FindFaceInSet(link.node1(), link.node2(), emptySet, faces ))) + faces.insert( f ); + + // select another outer face among the found + const SMDS_MeshElement* outerFace2 = 0; + if ( faces.size() == 2 ) + { + outerFace2 = (outerFace == *faces.begin() ? *faces.rbegin() : *faces.begin()); + } + else if ( faces.size() > 2 ) + { + seamLinks.insert( link ); + + // link direction within the outerFace + gp_Vec n1n2( SMESH_MeshEditor::TNodeXYZ( link.node1()), + SMESH_MeshEditor::TNodeXYZ( link.node2())); + int i1 = outerFace->GetNodeIndex( link.node1() ); + int i2 = outerFace->GetNodeIndex( link.node2() ); + bool rev = ( abs(i2-i1) == 1 ? i1 > i2 : i2 > i1 ); + if ( rev ) n1n2.Reverse(); + // outerFace normal + gp_XYZ ofNorm, fNorm; + if ( SMESH_Algo::FaceNormal( outerFace, ofNorm, /*normalized=*/false )) + { + // direction from the link inside outerFace + gp_Vec dirInOF = gp_Vec( ofNorm ) ^ n1n2; + // sort all other faces by angle with the dirInOF + map< double, const SMDS_MeshElement* > angle2Face; + set< const SMDS_MeshElement*, TIDCompare >::const_iterator face = faces.begin(); + for ( ; face != faces.end(); ++face ) + { + if ( !SMESH_Algo::FaceNormal( *face, fNorm, /*normalized=*/false )) + continue; + gp_Vec dirInF = gp_Vec( fNorm ) ^ n1n2; + double angle = dirInOF.AngleWithRef( dirInF, n1n2 ); + if ( angle < 0 ) angle += 2*PI; + angle2Face.insert( make_pair( angle, *face )); + } + if ( !angle2Face.empty() ) + outerFace2 = angle2Face.begin()->second; + } + } + // store the found outer face and add its links to continue seaching from + if ( outerFace2 ) + { + _outerFaces.insert( outerFace ); + int nbNodes = outerFace2->NbNodes()/( outerFace2->IsQuadratic() ? 2 : 1 ); + for ( int i = 0; i < nbNodes; ++i ) + { + SMESH_TLink link2( outerFace2->GetNode(i), outerFace2->GetNode((i+1)%nbNodes)); + if ( visitedLinks.insert( link2 ).second ) + startLinks.push_back( TFaceLink( link2.node1(), link2.node2(), outerFace2 )); + } + } + startLinks.pop_front(); + } + _outerFacesFound = true; + + if ( !seamLinks.empty() ) + { + // There are internal boundaries touching the outher one, + // find all faces of internal boundaries in order to find + // faces of boundaries of holes, if any. + + } + else + { + _outerFaces.clear(); + } +} + +//======================================================================= +/*! + * \brief Find elements of given type where the given point is IN or ON. + * Returns nb of found elements and elements them-selves. + * + * 'ALL' type means elements of any type excluding nodes and 0D elements + */ +//======================================================================= + +int SMESH_ElementSearcherImpl:: +FindElementsByPoint(const gp_Pnt& point, + SMDSAbs_ElementType type, + vector< const SMDS_MeshElement* >& foundElements) +{ + foundElements.clear(); + + double tolerance = getTolerance(); + + // ================================================================================= + if ( type == SMDSAbs_Node || type == SMDSAbs_0DElement ) + { + if ( !_nodeSearcher ) + _nodeSearcher = new SMESH_NodeSearcherImpl( _mesh ); + + const SMDS_MeshNode* closeNode = _nodeSearcher->FindClosestTo( point ); + if ( !closeNode ) return foundElements.size(); + + if ( point.Distance( SMESH_MeshEditor::TNodeXYZ( closeNode )) > tolerance ) + return foundElements.size(); // to far from any node + + if ( type == SMDSAbs_Node ) + { + foundElements.push_back( closeNode ); + } + else + { + SMDS_ElemIteratorPtr elemIt = closeNode->GetInverseElementIterator( SMDSAbs_0DElement ); + while ( elemIt->more() ) + foundElements.push_back( elemIt->next() ); + } + } + // ================================================================================= + else // elements more complex than 0D + { + if ( !_ebbTree || _elementType != type ) + { + if ( _ebbTree ) delete _ebbTree; + _ebbTree = new ElementBndBoxTree( *_mesh, _elementType = type, tolerance ); + } + TIDSortedElemSet suspectElems; + _ebbTree->getElementsNearPoint( point, suspectElems ); + TIDSortedElemSet::iterator elem = suspectElems.begin(); + for ( ; elem != suspectElems.end(); ++elem ) + if ( !SMESH_MeshEditor::isOut( *elem, point, tolerance )) + foundElements.push_back( *elem ); + } + return foundElements.size(); +} + +//================================================================================ +/*! + * \brief Classify the given point in the closed 2D mesh + */ +//================================================================================ + +TopAbs_State SMESH_ElementSearcherImpl::GetPointState(const gp_Pnt& point) +{ + double tolerance = getTolerance(); + if ( !_ebbTree || _elementType != SMDSAbs_Face ) + { + if ( _ebbTree ) delete _ebbTree; + _ebbTree = new ElementBndBoxTree( *_mesh, _elementType = SMDSAbs_Face ); + } + // Algo: analyse transition of a line starting at the point through mesh boundary; + // try three lines parallel to axis of the coordinate system and perform rough + // analysis. If solution is not clear perform thorough analysis. + + const int nbAxes = 3; + gp_Dir axisDir[ nbAxes ] = { gp::DX(), gp::DY(), gp::DZ() }; + map< double, TInters > paramOnLine2TInters[ nbAxes ]; + list< TInters > tangentInters[ nbAxes ]; // of faces whose plane includes the line + multimap< int, int > nbInt2Axis; // to find the simplest case + for ( int axis = 0; axis < nbAxes; ++axis ) + { + gp_Ax1 lineAxis( point, axisDir[axis]); + gp_Lin line ( lineAxis ); + + TIDSortedElemSet suspectFaces; // faces possibly intersecting the line + _ebbTree->getElementsNearLine( lineAxis, suspectFaces ); + + // Intersect faces with the line + + map< double, TInters > & u2inters = paramOnLine2TInters[ axis ]; + TIDSortedElemSet::iterator face = suspectFaces.begin(); + for ( ; face != suspectFaces.end(); ++face ) + { + // get face plane + gp_XYZ fNorm; + if ( !SMESH_Algo::FaceNormal( *face, fNorm, /*normalized=*/false)) continue; + gp_Pln facePlane( SMESH_MeshEditor::TNodeXYZ( (*face)->GetNode(0)), fNorm ); + + // perform intersection + IntAna_IntConicQuad intersection( line, IntAna_Quadric( facePlane )); + if ( !intersection.IsDone() ) + continue; + if ( intersection.IsInQuadric() ) + { + tangentInters[ axis ].push_back( TInters( *face, fNorm, true )); + } + else if ( ! intersection.IsParallel() && intersection.NbPoints() > 0 ) + { + gp_Pnt intersectionPoint = intersection.Point(1); + if ( !SMESH_MeshEditor::isOut( *face, intersectionPoint, tolerance )) + u2inters.insert(make_pair( intersection.ParamOnConic(1), TInters( *face, fNorm ))); + } + } + // Analyse intersections roughly + + int nbInter = u2inters.size(); + if ( nbInter == 0 ) + return TopAbs_OUT; + + double f = u2inters.begin()->first, l = u2inters.rbegin()->first; + if ( nbInter == 1 ) // not closed mesh + return fabs( f ) < tolerance ? TopAbs_ON : TopAbs_UNKNOWN; + + if ( fabs( f ) < tolerance || fabs( l ) < tolerance ) + return TopAbs_ON; + + if ( (f<0) == (l<0) ) + return TopAbs_OUT; + + int nbIntBeforePoint = std::distance( u2inters.begin(), u2inters.lower_bound(0)); + int nbIntAfterPoint = nbInter - nbIntBeforePoint; + if ( nbIntBeforePoint == 1 || nbIntAfterPoint == 1 ) + return TopAbs_IN; + + nbInt2Axis.insert( make_pair( min( nbIntBeforePoint, nbIntAfterPoint ), axis )); + + if ( _outerFacesFound ) break; // pass to thorough analysis + + } // three attempts - loop on CS axes + + // Analyse intersections thoroughly. + // We make two loops maximum, on the first one we only exclude touching intersections, + // on the second, if situation is still unclear, we gather and use information on + // position of faces (internal or outer). If faces position is already gathered, + // we make the second loop right away. + + for ( int hasPositionInfo = _outerFacesFound; hasPositionInfo < 2; ++hasPositionInfo ) + { + multimap< int, int >::const_iterator nb_axis = nbInt2Axis.begin(); + for ( ; nb_axis != nbInt2Axis.end(); ++nb_axis ) + { + int axis = nb_axis->second; + map< double, TInters > & u2inters = paramOnLine2TInters[ axis ]; + + gp_Ax1 lineAxis( point, axisDir[axis]); + gp_Lin line ( lineAxis ); + + // add tangent intersections to u2inters + double param; + list< TInters >::const_iterator tgtInt = tangentInters[ axis ].begin(); + for ( ; tgtInt != tangentInters[ axis ].end(); ++tgtInt ) + if ( getIntersParamOnLine( line, tgtInt->_face, tolerance, param )) + u2inters.insert(make_pair( param, *tgtInt )); + tangentInters[ axis ].clear(); + + // Count intersections before and after the point excluding touching ones. + // If hasPositionInfo we count intersections of outer boundary only + + int nbIntBeforePoint = 0, nbIntAfterPoint = 0; + double f = numeric_limits::max(), l = -numeric_limits::max(); + map< double, TInters >::iterator u_int1 = u2inters.begin(), u_int2 = u_int1; + bool ok = ! u_int1->second._coincides; + while ( ok && u_int1 != u2inters.end() ) + { + double u = u_int1->first; + bool touchingInt = false; + if ( ++u_int2 != u2inters.end() ) + { + // skip intersections at the same point (if the line passes through edge or node) + int nbSamePnt = 0; + while ( u_int2 != u2inters.end() && fabs( u_int2->first - u ) < tolerance ) { - // make a name - string name = oldGroup->GetStoreName(); - if ( !targetMesh ) { - name += "_"; - name += postfix; - int nb = 0; - while ( !groupNames.insert( name ).second ) // name exists - { - if ( nb == 0 ) { - name += "_1"; - } - else { - TCollection_AsciiString nbStr(nb+1); - name.resize( name.rfind('_')+1 ); - name += nbStr.ToCString(); - } - ++nb; - } + ++nbSamePnt; + ++u_int2; + } + + // skip tangent intersections + int nbTgt = 0; + const SMDS_MeshElement* prevFace = u_int1->second._face; + while ( ok && u_int2->second._coincides ) + { + if ( SMESH_Algo::GetCommonNodes(prevFace , u_int2->second._face).empty() ) + ok = false; + else + { + nbTgt++; + u_int2++; + ok = ( u_int2 != u2inters.end() ); } - // make a group - int id; - SMESH_Group* group = mesh->AddGroup( resultElems.back()->GetType(), - name.c_str(), id ); - SMESHDS_Group* groupDS = static_cast(group->GetGroupDS()); - newGroup = & groupDS->SMDSGroup(); - newGroupIDs->push_back( id ); } + if ( !ok ) break; - // fill in a new group - list< const SMDS_MeshElement* >::iterator resLast = resultElems.end(), resElemIt; - for ( resElemIt = resultElems.begin(); resElemIt != resLast; ++resElemIt ) - newGroup->Add( *resElemIt ); + // skip intersections at the same point after tangent intersections + if ( nbTgt > 0 ) + { + double u2 = u_int2->first; + ++u_int2; + while ( u_int2 != u2inters.end() && fabs( u_int2->first - u2 ) < tolerance ) + { + ++nbSamePnt; + ++u_int2; + } + } + // decide if we skipped a touching intersection + if ( nbSamePnt + nbTgt > 0 ) + { + double minDot = numeric_limits::max(), maxDot = -numeric_limits::max(); + map< double, TInters >::iterator u_int = u_int1; + for ( ; u_int != u_int2; ++u_int ) + { + if ( u_int->second._coincides ) continue; + double dot = u_int->second._faceNorm * line.Direction(); + if ( dot > maxDot ) maxDot = dot; + if ( dot < minDot ) minDot = dot; + } + touchingInt = ( minDot*maxDot < 0 ); + } + } + if ( !touchingInt ) + { + if ( !hasPositionInfo || isOuterBoundary( u_int1->second._face )) + { + if ( u < 0 ) + ++nbIntBeforePoint; + else + ++nbIntAfterPoint; + } + if ( u < f ) f = u; + if ( u > l ) l = u; } + + u_int1 = u_int2; // to next intersection + + } // loop on intersections with one line + + if ( ok ) + { + if ( fabs( f ) < tolerance || fabs( l ) < tolerance ) + return TopAbs_ON; + + if ( nbIntBeforePoint == 0 || nbIntAfterPoint == 0) + return TopAbs_OUT; + + if ( nbIntBeforePoint + nbIntAfterPoint == 1 ) // not closed mesh + return fabs( f ) < tolerance ? TopAbs_ON : TopAbs_UNKNOWN; + + if ( nbIntBeforePoint == 1 || nbIntAfterPoint == 1 ) + return TopAbs_IN; + + if ( (f<0) == (l<0) ) + return TopAbs_OUT; + + if ( hasPositionInfo ) + return nbIntBeforePoint % 2 ? TopAbs_IN : TopAbs_OUT; } - } // loop on created elements - }// loop on nodes and elements + } // loop on intersections of the tree lines - thorough analysis - return newGroupIDs; + if ( !hasPositionInfo ) + { + // gather info on faces position - is face in the outer boundary or not + map< double, TInters > & u2inters = paramOnLine2TInters[ 0 ]; + findOuterBoundary( u2inters.begin()->second._face ); + } + + } // two attempts - with and w/o faces position info in the mesh + + return TopAbs_UNKNOWN; } //======================================================================= -//function : FindCoincidentNodes -//purpose : Return list of group of nodes close to each other within theTolerance -// Search among theNodes or in the whole mesh if theNodes is empty using -// an Octree algorithm +/*! + * \brief Return elements possibly intersecting the line + */ //======================================================================= -void SMESH_MeshEditor::FindCoincidentNodes (set & theNodes, - const double theTolerance, - TListOfListOfNodes & theGroupsOfNodes) +void SMESH_ElementSearcherImpl::GetElementsNearLine( const gp_Ax1& line, + SMDSAbs_ElementType type, + vector< const SMDS_MeshElement* >& foundElems) { - myLastCreatedElems.Clear(); - myLastCreatedNodes.Clear(); - - set nodes; - if ( theNodes.empty() ) - { // get all nodes in the mesh - SMDS_NodeIteratorPtr nIt = GetMeshDS()->nodesIterator(); - while ( nIt->more() ) - nodes.insert( nodes.end(),nIt->next()); + if ( !_ebbTree || _elementType != type ) + { + if ( _ebbTree ) delete _ebbTree; + _ebbTree = new ElementBndBoxTree( *_mesh, _elementType = type ); } - else - nodes=theNodes; - SMESH_OctreeNode::FindCoincidentNodes ( nodes, &theGroupsOfNodes, theTolerance); + TIDSortedElemSet suspectFaces; // elements possibly intersecting the line + _ebbTree->getElementsNearLine( line, suspectFaces ); + foundElems.assign( suspectFaces.begin(), suspectFaces.end()); +} + +//======================================================================= +/*! + * \brief Return SMESH_ElementSearcher + */ +//======================================================================= +SMESH_ElementSearcher* SMESH_MeshEditor::GetElementSearcher() +{ + return new SMESH_ElementSearcherImpl( *GetMeshDS() ); } //======================================================================= /*! - * \brief Implementation of search for the node closest to point + * \brief Return true if the point is IN or ON of the element */ //======================================================================= -struct SMESH_NodeSearcherImpl: public SMESH_NodeSearcher +bool SMESH_MeshEditor::isOut( const SMDS_MeshElement* element, const gp_Pnt& point, double tol ) { - /*! - * \brief Constructor - */ - SMESH_NodeSearcherImpl( const SMESHDS_Mesh* theMesh ) + if ( element->GetType() == SMDSAbs_Volume) { - set nodes; - if ( theMesh ) { - SMDS_NodeIteratorPtr nIt = theMesh->nodesIterator(); - while ( nIt->more() ) - nodes.insert( nodes.end(), nIt->next() ); - } - myOctreeNode = new SMESH_OctreeNode(nodes) ; + return SMDS_VolumeTool( element ).IsOut( point.X(), point.Y(), point.Z(), tol ); } - /*! - * \brief Do it's job - */ - const SMDS_MeshNode* FindClosestTo( const gp_Pnt& thePnt ) - { - SMDS_MeshNode tgtNode( thePnt.X(), thePnt.Y(), thePnt.Z() ); - list nodes; - const double precision = 1e-6; - //myOctreeNode->NodesAround( &tgtNode, &nodes, precision ); - double minSqDist = DBL_MAX; - Bnd_B3d box; - if ( nodes.empty() ) // get all nodes of OctreeNode's closest to thePnt + // get ordered nodes + + vector< gp_XYZ > xyz; + vector nodeList; + + SMDS_ElemIteratorPtr nodeIt = element->nodesIterator(); + if ( element->IsQuadratic() ) { + if (const SMDS_VtkFace* f=dynamic_cast(element)) + nodeIt = f->interlacedNodesElemIterator(); + else if (const SMDS_VtkEdge* e =dynamic_cast(element)) + nodeIt = e->interlacedNodesElemIterator(); + } + while ( nodeIt->more() ) { - // sort leafs by their distance from thePnt - typedef map< double, SMESH_OctreeNode* > TDistTreeMap; - TDistTreeMap treeMap; - list< SMESH_OctreeNode* > treeList; - list< SMESH_OctreeNode* >::iterator trIt; - treeList.push_back( myOctreeNode ); - for ( trIt = treeList.begin(); trIt != treeList.end(); ++trIt) + const SMDS_MeshNode* node = cast2Node( nodeIt->next() ); + xyz.push_back( TNodeXYZ(node) ); + nodeList.push_back(node); + } + + int i, nbNodes = element->NbNodes(); + + if ( element->GetType() == SMDSAbs_Face ) // -------------------------------------------------- + { + // compute face normal + gp_Vec faceNorm(0,0,0); + xyz.push_back( xyz.front() ); + nodeList.push_back( nodeList.front() ); + for ( i = 0; i < nbNodes; ++i ) + { + gp_Vec edge1( xyz[i+1], xyz[i]); + gp_Vec edge2( xyz[i+1], xyz[(i+2)%nbNodes] ); + faceNorm += edge1 ^ edge2; + } + double normSize = faceNorm.Magnitude(); + if ( normSize <= tol ) + { + // degenerated face: point is out if it is out of all face edges + for ( i = 0; i < nbNodes; ++i ) { - SMESH_OctreeNode* tree = *trIt; - if ( !tree->isLeaf() ) { // put children to the queue - SMESH_OctreeNodeIteratorPtr cIt = tree->GetChildrenIterator(); - while ( cIt->more() ) - treeList.push_back( cIt->next() ); - } - else if ( tree->NbNodes() ) { // put tree to treeMap - tree->getBox( box ); - double sqDist = thePnt.SquareDistance( 0.5 * ( box.CornerMin() + box.CornerMax() )); - pair it_in = treeMap.insert( make_pair( sqDist, tree )); - if ( !it_in.second ) // not unique distance to box center - treeMap.insert( it_in.first, make_pair( sqDist - 1e-13*treeMap.size(), tree )); - } - } - // find distance after which there is no sense to check tree's - double sqLimit = DBL_MAX; - TDistTreeMap::iterator sqDist_tree = treeMap.begin(); - if ( treeMap.size() > 5 ) { - SMESH_OctreeNode* closestTree = sqDist_tree->second; - closestTree->getBox( box ); - double limit = sqrt( sqDist_tree->first ) + sqrt ( box.SquareExtent() ); - sqLimit = limit * limit; - } - // get all nodes from trees - for ( ; sqDist_tree != treeMap.end(); ++sqDist_tree) { - if ( sqDist_tree->first > sqLimit ) - break; - SMESH_OctreeNode* tree = sqDist_tree->second; - tree->NodesAround( tree->GetNodeIterator()->next(), &nodes ); + SMDS_LinearEdge edge( nodeList[i], nodeList[i+1] ); + if ( !isOut( &edge, point, tol )) + return false; } + return true; } - // find closest among nodes - minSqDist = DBL_MAX; - const SMDS_MeshNode* closestNode = 0; - list::iterator nIt = nodes.begin(); - for ( ; nIt != nodes.end(); ++nIt ) { - double sqDist = thePnt.SquareDistance( TNodeXYZ( *nIt ) ); - if ( minSqDist > sqDist ) { - closestNode = *nIt; - minSqDist = sqDist; + faceNorm /= normSize; + + // check if the point lays on face plane + gp_Vec n2p( xyz[0], point ); + if ( fabs( n2p * faceNorm ) > tol ) + return true; // not on face plane + + // check if point is out of face boundary: + // define it by closest transition of a ray point->infinity through face boundary + // on the face plane. + // First, find normal of a plane perpendicular to face plane, to be used as a cutting tool + // to find intersections of the ray with the boundary. + gp_Vec ray = n2p; + gp_Vec plnNorm = ray ^ faceNorm; + normSize = plnNorm.Magnitude(); + if ( normSize <= tol ) return false; // point coincides with the first node + plnNorm /= normSize; + // for each node of the face, compute its signed distance to the plane + vector dist( nbNodes + 1); + for ( i = 0; i < nbNodes; ++i ) + { + gp_Vec n2p( xyz[i], point ); + dist[i] = n2p * plnNorm; + } + dist.back() = dist.front(); + // find the closest intersection + int iClosest = -1; + double rClosest, distClosest = 1e100;; + gp_Pnt pClosest; + for ( i = 0; i < nbNodes; ++i ) + { + double r; + if ( fabs( dist[i]) < tol ) + r = 0.; + else if ( fabs( dist[i+1]) < tol ) + r = 1.; + else if ( dist[i] * dist[i+1] < 0 ) + r = dist[i] / ( dist[i] - dist[i+1] ); + else + continue; // no intersection + gp_Pnt pInt = xyz[i] * (1.-r) + xyz[i+1] * r; + gp_Vec p2int ( point, pInt); + if ( p2int * ray > -tol ) // right half-space + { + double intDist = p2int.SquareMagnitude(); + if ( intDist < distClosest ) + { + iClosest = i; + rClosest = r; + pClosest = pInt; + distClosest = intDist; + } } } - return closestNode; - } - /*! - * \brief Destructor - */ - ~SMESH_NodeSearcherImpl() { delete myOctreeNode; } -private: - SMESH_OctreeNode* myOctreeNode; -}; + if ( iClosest < 0 ) + return true; // no intesections - out -//======================================================================= -/*! - * \brief Return SMESH_NodeSearcher - */ -//======================================================================= + // analyse transition + gp_Vec edge( xyz[iClosest], xyz[iClosest+1] ); + gp_Vec edgeNorm = -( edge ^ faceNorm ); // normal to intersected edge pointing out of face + gp_Vec p2int ( point, pClosest ); + bool out = (edgeNorm * p2int) < -tol; + if ( rClosest > 0. && rClosest < 1. ) // not node intersection + return out; -SMESH_NodeSearcher* SMESH_MeshEditor::GetNodeSearcher() -{ - return new SMESH_NodeSearcherImpl( GetMeshDS() ); + // ray pass through a face node; analyze transition through an adjacent edge + gp_Pnt p1 = xyz[ (rClosest == 0.) ? ((iClosest+nbNodes-1) % nbNodes) : (iClosest+1) ]; + gp_Pnt p2 = xyz[ (rClosest == 0.) ? iClosest : ((iClosest+2) % nbNodes) ]; + gp_Vec edgeAdjacent( p1, p2 ); + gp_Vec edgeNorm2 = -( edgeAdjacent ^ faceNorm ); + bool out2 = (edgeNorm2 * p2int) < -tol; + + bool covexCorner = ( edgeNorm * edgeAdjacent * (rClosest==1. ? 1. : -1.)) < 0; + return covexCorner ? (out || out2) : (out && out2); + } + if ( element->GetType() == SMDSAbs_Edge ) // -------------------------------------------------- + { + // point is out of edge if it is NOT ON any straight part of edge + // (we consider quadratic edge as being composed of two straight parts) + for ( i = 1; i < nbNodes; ++i ) + { + gp_Vec edge( xyz[i-1], xyz[i]); + gp_Vec n1p ( xyz[i-1], point); + double dist = ( edge ^ n1p ).Magnitude() / edge.Magnitude(); + if ( dist > tol ) + continue; + gp_Vec n2p( xyz[i], point ); + if ( fabs( edge.Magnitude() - n1p.Magnitude() - n2p.Magnitude()) > tol ) + continue; + return false; // point is ON this part + } + return true; + } + // Node or 0D element ------------------------------------------------------------------------- + { + gp_Vec n2p ( xyz[0], point ); + return n2p.Magnitude() <= tol; + } + return true; } //======================================================================= @@ -5290,6 +7289,7 @@ int SMESH_MeshEditor::SimplifyFace (const vector faceNode void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) { + MESSAGE("MergeNodes"); myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -5306,10 +7306,12 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) list& nodes = *grIt; list::iterator nIt = nodes.begin(); const SMDS_MeshNode* nToKeep = *nIt; + //MESSAGE("node to keep " << nToKeep->GetID()); for ( ++nIt; nIt != nodes.end(); nIt++ ) { const SMDS_MeshNode* nToRemove = *nIt; nodeNodeMap.insert( TNodeNodeMap::value_type( nToRemove, nToKeep )); if ( nToRemove != nToKeep ) { + //MESSAGE(" node to remove " << nToRemove->GetID()); rmNodeIds.push_back( nToRemove->GetID() ); AddToSameGroups( nToKeep, nToRemove, aMesh ); } @@ -5317,7 +7319,7 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) SMDS_ElemIteratorPtr invElemIt = nToRemove->GetInverseElementIterator(); while ( invElemIt->more() ) { const SMDS_MeshElement* elem = invElemIt->next(); - elems.insert(elem); + elems.insert(elem); } } } @@ -5326,6 +7328,7 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) set::iterator eIt = elems.begin(); for ( ; eIt != elems.end(); eIt++ ) { const SMDS_MeshElement* elem = *eIt; + //MESSAGE(" ---- inverse elem on node to remove " << elem->GetID()); int nbNodes = elem->NbNodes(); int aShapeId = FindShape( elem ); @@ -5375,6 +7378,7 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) bool isOk = true; int nbUniqueNodes = nodeSet.size(); + //MESSAGE("nbNodes nbUniqueNodes " << nbNodes << " " << nbUniqueNodes); if ( nbNodes != nbUniqueNodes ) { // some nodes stick // Polygons and Polyhedral volumes if (elem->IsPoly()) { @@ -5390,10 +7394,9 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) vector polygons_nodes; vector quantities; int nbNew = SimplifyFace(face_nodes, polygons_nodes, quantities); - if (nbNew > 0) { inode = 0; - for (int iface = 0; iface < nbNew - 1; iface++) { + for (int iface = 0; iface < nbNew; iface++) { int nbNodes = quantities[iface]; vector poly_nodes (nbNodes); for (int ii = 0; ii < nbNodes; ii++, inode++) { @@ -5404,7 +7407,19 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) if (aShapeId) aMesh->SetMeshElementOnShape(newElem, aShapeId); } - aMesh->ChangeElementNodes(elem, &polygons_nodes[inode], quantities[nbNew - 1]); + + MESSAGE("ChangeElementNodes MergeNodes Polygon"); + //aMesh->ChangeElementNodes(elem, &polygons_nodes[inode], quantities[nbNew - 1]); + vector polynodes(polygons_nodes.begin()+inode,polygons_nodes.end()); + int quid =0; + if (nbNew > 0) quid = nbNew - 1; + vector newquant(quantities.begin()+quid, quantities.end()); + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddPolyhedralVolume(polynodes, newquant); + myLastCreatedElems.Append(newElem); + if ( aShapeId && newElem ) + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + rmElemIds.push_back(elem->GetID()); } else { rmElemIds.push_back(elem->GetID()); @@ -5417,9 +7432,9 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) rmElemIds.push_back(elem->GetID()); } else { - // each face has to be analized in order to check volume validity - const SMDS_PolyhedralVolumeOfNodes* aPolyedre = - static_cast( elem ); + // each face has to be analyzed in order to check volume validity + const SMDS_VtkVolume* aPolyedre = + dynamic_cast( elem ); if (aPolyedre) { int nbFaces = aPolyedre->NbFaces(); @@ -5447,10 +7462,16 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) } if (quantities.size() > 3) - aMesh->ChangePolyhedronNodes(elem, poly_nodes, quantities); - else - rmElemIds.push_back(elem->GetID()); - + { + MESSAGE("ChangeElementNodes MergeNodes Polyhedron"); + //aMesh->ChangePolyhedronNodes(elem, poly_nodes, quantities); + const SMDS_MeshElement* newElem = 0; + newElem = aMesh->AddPolyhedralVolume(poly_nodes, quantities); + myLastCreatedElems.Append(newElem); + if ( aShapeId && newElem ) + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + rmElemIds.push_back(elem->GetID()); + } } else { rmElemIds.push_back(elem->GetID()); @@ -5464,6 +7485,7 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) } // Regular elements + // TODO not all the possible cases are solved. Find something more generic? switch ( nbNodes ) { case 2: ///////////////////////////////////// EDGE isOk = false; break; @@ -5477,6 +7499,7 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) isOk = false; else if ( nbRepl == 2 && iRepl[ 1 ] - iRepl[ 0 ] == 2 ) isOk = false; // opposite nodes stick + //MESSAGE("isOk " << isOk); } break; case 6: ///////////////////////////////////// PENTAHEDRON @@ -5541,7 +7564,11 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) // +---+---+ // 0 7 3 isOk = false; + if(nbRepl==2) { + MESSAGE("nbRepl=2: " << iRepl[0] << " " << iRepl[1]); + } if(nbRepl==3) { + MESSAGE("nbRepl=3: " << iRepl[0] << " " << iRepl[1] << " " << iRepl[2]); nbUniqueNodes = 6; if( iRepl[0]==0 && iRepl[1]==1 && iRepl[2]==4 ) { uniqueNodes[0] = curNodes[0]; @@ -5616,6 +7643,12 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) isOk = true; } } + if(nbRepl==4) { + MESSAGE("nbRepl=4: " << iRepl[0] << " " << iRepl[1] << " " << iRepl[2] << " " << iRepl[3]); + } + if(nbRepl==5) { + MESSAGE("nbRepl=5: " << iRepl[0] << " " << iRepl[1] << " " << iRepl[2] << " " << iRepl[3] << " " << iRepl[4]); + } break; } //////////////////////////////////// HEXAHEDRON @@ -5800,8 +7833,8 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) if ( isOk ) { if (elem->IsPoly() && elem->GetType() == SMDSAbs_Volume) { // Change nodes of polyedre - const SMDS_PolyhedralVolumeOfNodes* aPolyedre = - static_cast( elem ); + const SMDS_VtkVolume* aPolyedre = + dynamic_cast( elem ); if (aPolyedre) { int nbFaces = aPolyedre->NbFaces(); @@ -5826,21 +7859,36 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) } } else { - // Change regular element or polygon - aMesh->ChangeElementNodes( elem, & uniqueNodes[0], nbUniqueNodes ); + //int elemId = elem->GetID(); + //MESSAGE("Change regular element or polygon " << elemId); + SMDSAbs_ElementType etyp = elem->GetType(); + uniqueNodes.resize(nbUniqueNodes); + SMDS_MeshElement* newElem = 0; + if (elem->GetEntityType() == SMDSEntity_Polygon) + newElem = this->AddElement(uniqueNodes, etyp, true); + else + newElem = this->AddElement(uniqueNodes, etyp, false); + if (newElem) + { + myLastCreatedElems.Append(newElem); + if ( aShapeId ) + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + aMesh->RemoveElement(elem); } } else { // Remove invalid regular element or invalid polygon + //MESSAGE("Remove invalid " << elem->GetID()); rmElemIds.push_back( elem->GetID() ); } } // loop on elements - // Remove equal nodes and bad elements + // Remove bad elements, then equal nodes (order important) - Remove( rmNodeIds, true ); Remove( rmElemIds, false ); + Remove( rmNodeIds, true ); } @@ -5851,24 +7899,24 @@ void SMESH_MeshEditor::MergeNodes (TListOfListOfNodes & theGroupsOfNodes) // ======================================================== class SortableElement : public set { - public: +public: SortableElement( const SMDS_MeshElement* theElem ) - { - myElem = theElem; - SMDS_ElemIteratorPtr nodeIt = theElem->nodesIterator(); - while ( nodeIt->more() ) - this->insert( nodeIt->next() ); - } + { + myElem = theElem; + SMDS_ElemIteratorPtr nodeIt = theElem->nodesIterator(); + while ( nodeIt->more() ) + this->insert( nodeIt->next() ); + } const SMDS_MeshElement* Get() const - { return myElem; } + { return myElem; } void Set(const SMDS_MeshElement* e) const - { myElem = e; } + { myElem = e; } - private: +private: mutable const SMDS_MeshElement* myElem; }; @@ -5878,7 +7926,7 @@ class SortableElement : public set // Search among theElements or in the whole mesh if theElements is empty //======================================================================= void SMESH_MeshEditor::FindEqualElements(set & theElements, - TListOfListOfElementsID & theGroupsOfElementsID) + TListOfListOfElementsID & theGroupsOfElementsID) { myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -5976,7 +8024,7 @@ void SMESH_MeshEditor::MergeElements(TListOfListOfElementsID & theGroupsOfElemen void SMESH_MeshEditor::MergeEqualElements() { set aMeshElements; /* empty input - - to merge equal elements in the whole mesh */ + to merge equal elements in the whole mesh */ TListOfListOfElementsID aGroupsOfElementsID; FindEqualElements(aMeshElements, aGroupsOfElementsID); MergeElements(aGroupsOfElementsID); @@ -5987,83 +8035,68 @@ void SMESH_MeshEditor::MergeEqualElements() //purpose : Return a face having linked nodes n1 and n2 and which is // - not in avoidSet, // - in elemSet provided that !elemSet.empty() +// i1 and i2 optionally returns indices of n1 and n2 //======================================================================= const SMDS_MeshElement* - SMESH_MeshEditor::FindFaceInSet(const SMDS_MeshNode* n1, - const SMDS_MeshNode* n2, - const TIDSortedElemSet& elemSet, - const TIDSortedElemSet& avoidSet) +SMESH_MeshEditor::FindFaceInSet(const SMDS_MeshNode* n1, + const SMDS_MeshNode* n2, + const TIDSortedElemSet& elemSet, + const TIDSortedElemSet& avoidSet, + int* n1ind, + int* n2ind) { + int i1, i2; + const SMDS_MeshElement* face = 0; + SMDS_ElemIteratorPtr invElemIt = n1->GetInverseElementIterator(SMDSAbs_Face); - while ( invElemIt->more() ) { // loop on inverse elements of n1 + //MESSAGE("n1->GetInverseElementIterator(SMDSAbs_Face) " << invElemIt); + while ( invElemIt->more() && !face ) // loop on inverse faces of n1 + { + //MESSAGE("in while ( invElemIt->more() && !face )"); const SMDS_MeshElement* elem = invElemIt->next(); - if (avoidSet.find( elem ) != avoidSet.end() ) + if (avoidSet.count( elem )) continue; - if ( !elemSet.empty() && elemSet.find( elem ) == elemSet.end()) + if ( !elemSet.empty() && !elemSet.count( elem )) continue; - // get face nodes and find index of n1 - int i1, nbN = elem->NbNodes(), iNode = 0; - //const SMDS_MeshNode* faceNodes[ nbN ], *n; - vector faceNodes( nbN ); - const SMDS_MeshNode* n; - SMDS_ElemIteratorPtr nIt = elem->nodesIterator(); - while ( nIt->more() ) { - faceNodes[ iNode ] = static_cast( nIt->next() ); - if ( faceNodes[ iNode++ ] == n1 ) - i1 = iNode - 1; - } + // index of n1 + i1 = elem->GetNodeIndex( n1 ); // find a n2 linked to n1 - if(!elem->IsQuadratic()) { - for ( iNode = 0; iNode < 2; iNode++ ) { - if ( iNode ) // node before n1 - n = faceNodes[ i1 == 0 ? nbN - 1 : i1 - 1 ]; - else // node after n1 - n = faceNodes[ i1 + 1 == nbN ? 0 : i1 + 1 ]; - if ( n == n2 ) - return elem; - } - } - else { // analysis for quadratic elements - bool IsFind = false; - // check using only corner nodes - for ( iNode = 0; iNode < 2; iNode++ ) { - if ( iNode ) // node before n1 - n = faceNodes[ i1 == 0 ? nbN/2 - 1 : i1 - 1 ]; - else // node after n1 - n = faceNodes[ i1 + 1 == nbN/2 ? 0 : i1 + 1 ]; - if ( n == n2 ) - IsFind = true; - } - if(IsFind) { - return elem; - } - else { - // check using all nodes - const SMDS_QuadraticFaceOfNodes* F = - static_cast(elem); - // use special nodes iterator - iNode = 0; - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); - while ( anIter->more() ) { - faceNodes[iNode] = static_cast(anIter->next()); - if ( faceNodes[ iNode++ ] == n1 ) - i1 = iNode - 1; - } - for ( iNode = 0; iNode < 2; iNode++ ) { - if ( iNode ) // node before n1 - n = faceNodes[ i1 == 0 ? nbN - 1 : i1 - 1 ]; - else // node after n1 - n = faceNodes[ i1 + 1 == nbN ? 0 : i1 + 1 ]; - if ( n == n2 ) { - return elem; - } + int nbN = elem->IsQuadratic() ? elem->NbNodes()/2 : elem->NbNodes(); + for ( int di = -1; di < 2 && !face; di += 2 ) + { + i2 = (i1+di+nbN) % nbN; + if ( elem->GetNode( i2 ) == n2 ) + face = elem; + } + if ( !face && elem->IsQuadratic()) + { + // analysis for quadratic elements using all nodes + const SMDS_VtkFace* F = + dynamic_cast(elem); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); + // use special nodes iterator + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); + const SMDS_MeshNode* prevN = cast2Node( anIter->next() ); + for ( i1 = -1, i2 = 0; anIter->more() && !face; i1++, i2++ ) + { + const SMDS_MeshNode* n = cast2Node( anIter->next() ); + if ( n1 == prevN && n2 == n ) + { + face = elem; + } + else if ( n2 == prevN && n1 == n ) + { + face = elem; swap( i1, i2 ); } + prevN = n; } - } // end analysis for quadratic elements + } } - return 0; + if ( n1ind ) *n1ind = i1; + if ( n2ind ) *n2ind = i2; + return face; } //======================================================================= @@ -6107,7 +8140,7 @@ bool SMESH_MeshEditor::FindFreeBorder (const SMDS_MeshNode* theFirst //vector nodes; const SMDS_MeshNode *nIgnore = theFirstNode, *nStart = theSecondNode; - set < const SMDS_MeshElement* > foundElems; + TIDSortedElemSet foundElems; bool needTheLast = ( theLastNode != 0 ); while ( nStart != theLastNode ) { @@ -6126,14 +8159,15 @@ bool SMESH_MeshEditor::FindFreeBorder (const SMDS_MeshNode* theFirst int iNode = 0, nbNodes = e->NbNodes(); //const SMDS_MeshNode* nodes[nbNodes+1]; vector nodes(nbNodes+1); - + if(e->IsQuadratic()) { - const SMDS_QuadraticFaceOfNodes* F = - static_cast(e); + const SMDS_VtkFace* F = + dynamic_cast(e); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); // use special nodes iterator - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); while( anIter->more() ) { - nodes[ iNode++ ] = anIter->next(); + nodes[ iNode++ ] = cast2Node(anIter->next()); } } else { @@ -6246,15 +8280,15 @@ bool SMESH_MeshEditor::CheckFreeBorderNodes(const SMDS_MeshNode* theNode1, //======================================================================= SMESH_MeshEditor::Sew_Error - SMESH_MeshEditor::SewFreeBorder (const SMDS_MeshNode* theBordFirstNode, - const SMDS_MeshNode* theBordSecondNode, - const SMDS_MeshNode* theBordLastNode, - const SMDS_MeshNode* theSideFirstNode, - const SMDS_MeshNode* theSideSecondNode, - const SMDS_MeshNode* theSideThirdNode, - const bool theSideIsFreeBorder, - const bool toCreatePolygons, - const bool toCreatePolyedrs) +SMESH_MeshEditor::SewFreeBorder (const SMDS_MeshNode* theBordFirstNode, + const SMDS_MeshNode* theBordSecondNode, + const SMDS_MeshNode* theBordLastNode, + const SMDS_MeshNode* theSideFirstNode, + const SMDS_MeshNode* theSideSecondNode, + const SMDS_MeshNode* theSideThirdNode, + const bool theSideIsFreeBorder, + const bool toCreatePolygons, + const bool toCreatePolyedrs) { myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -6303,7 +8337,7 @@ SMESH_MeshEditor::Sew_Error // links of the free border // ------------------------------------------------------------------------- - // 1. Since sewing may brake if there are volumes to split on the side 2, + // 1. Since sewing may break if there are volumes to split on the side 2, // we wont move nodes but just compute new coordinates for them typedef map TNodeXYZMap; TNodeXYZMap nBordXYZ; @@ -6401,12 +8435,13 @@ SMESH_MeshEditor::Sew_Error else if ( elem->GetType()==SMDSAbs_Face ) { // --face // retrieve all face nodes and find iPrevNode - an index of the prevSideNode if(elem->IsQuadratic()) { - const SMDS_QuadraticFaceOfNodes* F = - static_cast(elem); + const SMDS_VtkFace* F = + dynamic_cast(elem); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); // use special nodes iterator - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); while( anIter->more() ) { - nodes[ iNode ] = anIter->next(); + nodes[ iNode ] = cast2Node(anIter->next()); if ( nodes[ iNode++ ] == prevSideNode ) iPrevNode = iNode - 1; } @@ -6508,7 +8543,7 @@ SMESH_MeshEditor::Sew_Error TListOfListOfNodes nodeGroupsToMerge; if ( nbNodes[0] == nbNodes[1] || - ( theSideIsFreeBorder && !theSideThirdNode)) { + ( theSideIsFreeBorder && !theSideThirdNode)) { // all nodes are to be merged @@ -6720,12 +8755,13 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, vector nodes( theFace->NbNodes() ); if(theFace->IsQuadratic()) { - const SMDS_QuadraticFaceOfNodes* F = - static_cast(theFace); + const SMDS_VtkFace* F = + dynamic_cast(theFace); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); // use special nodes iterator - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); while( anIter->more() ) { - const SMDS_MeshNode* n = anIter->next(); + const SMDS_MeshNode* n = cast2Node(anIter->next()); if ( n == theBetweenNode1 ) il1 = iNode; else if ( n == theBetweenNode2 ) @@ -6781,12 +8817,13 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, bool isFLN = false; if(theFace->IsQuadratic()) { - const SMDS_QuadraticFaceOfNodes* F = - static_cast(theFace); + const SMDS_VtkFace* F = + dynamic_cast(theFace); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); // use special nodes iterator - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); while( anIter->more() && !isFLN ) { - const SMDS_MeshNode* n = anIter->next(); + const SMDS_MeshNode* n = cast2Node(anIter->next()); poly_nodes[iNode++] = n; if (n == nodes[il1]) { isFLN = true; @@ -6799,7 +8836,7 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, } // add nodes of face starting from last node of link while ( anIter->more() ) { - poly_nodes[iNode++] = anIter->next(); + poly_nodes[iNode++] = cast2Node(anIter->next()); } } else { @@ -6842,6 +8879,7 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, return; } + SMESHDS_Mesh *aMesh = GetMeshDS(); if( !theFace->IsQuadratic() ) { // put aNodesToInsert between theBetweenNode1 and theBetweenNode2 @@ -6892,7 +8930,6 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, } // create new elements - SMESHDS_Mesh *aMesh = GetMeshDS(); int aShapeId = FindShape( theFace ); i1 = 0; i2 = 1; @@ -6918,8 +8955,16 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, newNodes[ 1 ] = linkNodes[ i2 ]; newNodes[ 2 ] = nodes[ iSplit >= iBestQuad ? i3 : i4 ]; newNodes[ 3 ] = nodes[ i4 ]; - aMesh->ChangeElementNodes( theFace, newNodes, iSplit == iBestQuad ? 4 : 3 ); - } // end if(!theFace->IsQuadratic()) + //aMesh->ChangeElementNodes( theFace, newNodes, iSplit == iBestQuad ? 4 : 3 ); + const SMDS_MeshElement* newElem = 0; + if (iSplit == iBestQuad) + newElem = aMesh->AddFace( newNodes[0], newNodes[1], newNodes[2], newNodes[3] ); + else + newElem = aMesh->AddFace( newNodes[0], newNodes[1], newNodes[2] ); + myLastCreatedElems.Append(newElem); + if ( aShapeId && newElem ) + aMesh->SetMeshElementOnShape( newElem, aShapeId ); +} // end if(!theFace->IsQuadratic()) else { // theFace is quadratic // we have to split theFace on simple triangles and one simple quadrangle int tmp = il1/2; @@ -6946,7 +8991,6 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, // n4 n6 n5 n4 // create new elements - SMESHDS_Mesh *aMesh = GetMeshDS(); int aShapeId = FindShape( theFace ); int n1,n2,n3; @@ -7029,9 +9073,9 @@ void SMESH_MeshEditor::InsertNodesIntoLink(const SMDS_MeshElement* theFace, if ( aShapeId && newElem ) aMesh->SetMeshElementOnShape( newElem, aShapeId ); } - // remove old quadratic face - aMesh->RemoveElement(theFace); } + // remove old face + aMesh->RemoveElement(theFace); } //======================================================================= @@ -7134,7 +9178,7 @@ int SMESH_MeshEditor::convertElemToQuadratic(SMESHDS_SubMesh * theSm, int nbElem = 0; if( !theSm ) return nbElem; - const bool notFromGroups = false; + vector nbNodeInFaces; SMDS_ElemIteratorPtr ElemItr = theSm->GetElements(); while(ElemItr->more()) { @@ -7143,67 +9187,73 @@ int SMESH_MeshEditor::convertElemToQuadratic(SMESHDS_SubMesh * theSm, if( !elem || elem->IsQuadratic() ) continue; int id = elem->GetID(); + //MESSAGE("elem " << id); + id = 0; // get a free number for new elements int nbNodes = elem->NbNodes(); - vector aNds (nbNodes); - - for(int i = 0; i < nbNodes; i++) - { - aNds[i] = elem->GetNode(i); - } SMDSAbs_ElementType aType = elem->GetType(); - GetMeshDS()->RemoveFreeElement(elem, theSm, notFromGroups); + vector nodes (elem->begin_nodes(), elem->end_nodes()); + if ( elem->GetEntityType() == SMDSEntity_Polyhedra ) + nbNodeInFaces = static_cast( elem )->GetQuantities(); const SMDS_MeshElement* NewElem = 0; switch( aType ) { case SMDSAbs_Edge : - { - NewElem = theHelper.AddEdge(aNds[0], aNds[1], id, theForce3d); - break; - } + { + NewElem = theHelper.AddEdge(nodes[0], nodes[1], id, theForce3d); + break; + } case SMDSAbs_Face : - { - switch(nbNodes) { - case 3: - NewElem = theHelper.AddFace(aNds[0], aNds[1], aNds[2], id, theForce3d); - break; - case 4: - NewElem = theHelper.AddFace(aNds[0], aNds[1], aNds[2], aNds[3], id, theForce3d); - break; - default: - continue; + switch(nbNodes) + { + case 3: + NewElem = theHelper.AddFace(nodes[0], nodes[1], nodes[2], id, theForce3d); + break; + case 4: + NewElem = theHelper.AddFace(nodes[0], nodes[1], nodes[2], nodes[3], id, theForce3d); + break; + default: + NewElem = theHelper.AddPolygonalFace(nodes, id, theForce3d); + continue; + } + break; } - break; - } case SMDSAbs_Volume : - { - switch(nbNodes) { - case 4: - NewElem = theHelper.AddVolume(aNds[0], aNds[1], aNds[2], aNds[3], id, theForce3d); - break; - case 6: - NewElem = theHelper.AddVolume(aNds[0], aNds[1], aNds[2], aNds[3], aNds[4], aNds[5], id, theForce3d); - break; - case 8: - NewElem = theHelper.AddVolume(aNds[0], aNds[1], aNds[2], aNds[3], - aNds[4], aNds[5], aNds[6], aNds[7], id, theForce3d); - break; - default: - continue; + switch(nbNodes) + { + case 4: + NewElem = theHelper.AddVolume(nodes[0], nodes[1], nodes[2], nodes[3], id, theForce3d); + break; + case 5: + NewElem = theHelper.AddVolume(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], id, theForce3d); + break; + case 6: + NewElem = theHelper.AddVolume(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], nodes[5], id, theForce3d); + break; + case 8: + NewElem = theHelper.AddVolume(nodes[0], nodes[1], nodes[2], nodes[3], + nodes[4], nodes[5], nodes[6], nodes[7], id, theForce3d); + break; + default: + NewElem = theHelper.AddPolyhedralVolume(nodes, nbNodeInFaces, id, theForce3d); + } + break; } - break; - } default : continue; } ReplaceElemInGroups( elem, NewElem, GetMeshDS()); if( NewElem ) theSm->AddElement( NewElem ); + + GetMeshDS()->RemoveFreeElement(elem, theSm, /*fromGroups=*/false); } +// if (!GetMeshDS()->isCompacted()) +// GetMeshDS()->compactMesh(); return nbElem; } @@ -7217,7 +9267,6 @@ void SMESH_MeshEditor::ConvertToQuadratic(const bool theForce3d) SMESH_MesherHelper aHelper(*myMesh); aHelper.SetIsQuadratic( true ); - const bool notFromGroups = false; int nbCheckedElems = 0; if ( myMesh->HasShapeToMesh() ) @@ -7229,7 +9278,6 @@ void SMESH_MeshEditor::ConvertToQuadratic(const bool theForce3d) SMESH_subMesh* sm = smIt->next(); if ( SMESHDS_SubMesh *smDS = sm->GetSubMeshDS() ) { aHelper.SetSubShape( sm->GetSubShape() ); - if ( !theForce3d) aHelper.SetCheckNodePosition(true); nbCheckedElems += convertElemToQuadratic(smDS, aHelper, theForce3d); } } @@ -7245,11 +9293,12 @@ void SMESH_MeshEditor::ConvertToQuadratic(const bool theForce3d) const SMDS_MeshEdge* edge = aEdgeItr->next(); if(edge && !edge->IsQuadratic()) { - int id = edge->GetID(); - const SMDS_MeshNode* n1 = edge->GetNode(0); - const SMDS_MeshNode* n2 = edge->GetNode(1); + int id = edge->GetID(); + //MESSAGE("edge->GetID() " << id); + const SMDS_MeshNode* n1 = edge->GetNode(0); + const SMDS_MeshNode* n2 = edge->GetNode(1); - meshDS->RemoveFreeElement(edge, smDS, notFromGroups); + meshDS->RemoveFreeElement(edge, smDS, /*fromGroups=*/false); const SMDS_MeshEdge* NewEdge = aHelper.AddEdge(n1, n2, id, theForce3d); ReplaceElemInGroups( edge, NewEdge, GetMeshDS()); @@ -7263,29 +9312,25 @@ void SMESH_MeshEditor::ConvertToQuadratic(const bool theForce3d) int id = face->GetID(); int nbNodes = face->NbNodes(); - vector aNds (nbNodes); - - for(int i = 0; i < nbNodes; i++) - { - aNds[i] = face->GetNode(i); - } + vector nodes ( face->begin_nodes(), face->end_nodes()); - meshDS->RemoveFreeElement(face, smDS, notFromGroups); + meshDS->RemoveFreeElement(face, smDS, /*fromGroups=*/false); SMDS_MeshFace * NewFace = 0; switch(nbNodes) { case 3: - NewFace = aHelper.AddFace(aNds[0], aNds[1], aNds[2], id, theForce3d); - break; + NewFace = aHelper.AddFace(nodes[0], nodes[1], nodes[2], id, theForce3d); + break; case 4: - NewFace = aHelper.AddFace(aNds[0], aNds[1], aNds[2], aNds[3], id, theForce3d); - break; + NewFace = aHelper.AddFace(nodes[0], nodes[1], nodes[2], nodes[3], id, theForce3d); + break; default: - continue; + NewFace = aHelper.AddPolygonalFace(nodes, id, theForce3d); } ReplaceElemInGroups( face, NewFace, GetMeshDS()); } + vector nbNodeInFaces; SMDS_VolumeIteratorPtr aVolumeItr = meshDS->volumesIterator(); while(aVolumeItr->more()) { @@ -7294,40 +9339,45 @@ void SMESH_MeshEditor::ConvertToQuadratic(const bool theForce3d) int id = volume->GetID(); int nbNodes = volume->NbNodes(); - vector aNds (nbNodes); - - for(int i = 0; i < nbNodes; i++) - { - aNds[i] = volume->GetNode(i); - } + vector nodes (volume->begin_nodes(), volume->end_nodes()); + if ( volume->GetEntityType() == SMDSEntity_Polyhedra ) + nbNodeInFaces = static_cast(volume)->GetQuantities(); - meshDS->RemoveFreeElement(volume, smDS, notFromGroups); + meshDS->RemoveFreeElement(volume, smDS, /*fromGroups=*/false); SMDS_MeshVolume * NewVolume = 0; switch(nbNodes) { case 4: - NewVolume = aHelper.AddVolume(aNds[0], aNds[1], aNds[2], - aNds[3], id, theForce3d ); - break; + NewVolume = aHelper.AddVolume(nodes[0], nodes[1], nodes[2], + nodes[3], id, theForce3d ); + break; + case 5: + NewVolume = aHelper.AddVolume(nodes[0], nodes[1], nodes[2], + nodes[3], nodes[4], id, theForce3d); + break; case 6: - NewVolume = aHelper.AddVolume(aNds[0], aNds[1], aNds[2], - aNds[3], aNds[4], aNds[5], id, theForce3d); - break; + NewVolume = aHelper.AddVolume(nodes[0], nodes[1], nodes[2], + nodes[3], nodes[4], nodes[5], id, theForce3d); + break; case 8: - NewVolume = aHelper.AddVolume(aNds[0], aNds[1], aNds[2], aNds[3], - aNds[4], aNds[5], aNds[6], aNds[7], id, theForce3d); - break; + NewVolume = aHelper.AddVolume(nodes[0], nodes[1], nodes[2], nodes[3], + nodes[4], nodes[5], nodes[6], nodes[7], id, theForce3d); + break; default: - continue; + NewVolume = aHelper.AddPolyhedralVolume(nodes, nbNodeInFaces, id, theForce3d); } ReplaceElemInGroups(volume, NewVolume, meshDS); } } - if ( !theForce3d ) { - aHelper.SetSubShape(0); // apply to the whole mesh + + if ( !theForce3d && !getenv("NO_FixQuadraticElements")) + { // setenv NO_FixQuadraticElements to know if FixQuadraticElements() is guilty of bad conversion + aHelper.SetSubShape(0); // apply FixQuadraticElements() to the whole mesh aHelper.FixQuadraticElements(); } + if (!GetMeshDS()->isCompacted()) + GetMeshDS()->compactMesh(); } //======================================================================= @@ -7353,41 +9403,41 @@ int SMESH_MeshEditor::removeQuadElem(SMESHDS_SubMesh * theSm, { int id = elem->GetID(); int nbNodes = elem->NbNodes(); - vector aNds, mediumNodes; - aNds.reserve( nbNodes ); + vector nodes, mediumNodes; + nodes.reserve( nbNodes ); mediumNodes.reserve( nbNodes ); for(int i = 0; i < nbNodes; i++) { - const SMDS_MeshNode* n = elem->GetNode(i); + const SMDS_MeshNode* n = elem->GetNode(i); - if( elem->IsMediumNode( n ) ) + if( elem->IsMediumNode( n ) ) mediumNodes.push_back( n ); - else - aNds.push_back( n ); + else + nodes.push_back( n ); } - if( aNds.empty() ) continue; + if( nodes.empty() ) continue; SMDSAbs_ElementType aType = elem->GetType(); //remove old quadratic element meshDS->RemoveFreeElement( elem, theSm, notFromGroups ); - SMDS_MeshElement * NewElem = AddElement( aNds, aType, false, id ); + SMDS_MeshElement * NewElem = AddElement( nodes, aType, false, id ); ReplaceElemInGroups(elem, NewElem, meshDS); if( theSm && NewElem ) - theSm->AddElement( NewElem ); + theSm->AddElement( NewElem ); // remove medium nodes vector::iterator nIt = mediumNodes.begin(); for ( ; nIt != mediumNodes.end(); ++nIt ) { const SMDS_MeshNode* n = *nIt; if ( n->NbInverseElements() == 0 ) { - if ( n->GetPosition()->GetShapeId() != theShapeID ) + if ( n->getshapeId() != theShapeID ) meshDS->RemoveFreeNode( n, meshDS->MeshElements - ( n->GetPosition()->GetShapeId() )); + ( n->getshapeId() )); else meshDS->RemoveFreeNode( n, theSm ); - } + } } } } @@ -7413,7 +9463,7 @@ bool SMESH_MeshEditor::ConvertFromQuadratic() } } } - + int totalNbElems = GetMeshDS()->NbEdges() + GetMeshDS()->NbFaces() + GetMeshDS()->NbVolumes(); if ( nbCheckedElems < totalNbElems ) // not all elements are in submeshes @@ -7431,12 +9481,12 @@ bool SMESH_MeshEditor::ConvertFromQuadratic() //======================================================================= SMESH_MeshEditor::Sew_Error - SMESH_MeshEditor::SewSideElements (TIDSortedElemSet& theSide1, - TIDSortedElemSet& theSide2, - const SMDS_MeshNode* theFirstNode1, - const SMDS_MeshNode* theFirstNode2, - const SMDS_MeshNode* theSecondNode1, - const SMDS_MeshNode* theSecondNode2) +SMESH_MeshEditor::SewSideElements (TIDSortedElemSet& theSide1, + TIDSortedElemSet& theSide2, + const SMDS_MeshNode* theFirstNode1, + const SMDS_MeshNode* theFirstNode2, + const SMDS_MeshNode* theSecondNode1, + const SMDS_MeshNode* theSecondNode2) { myLastCreatedElems.Clear(); myLastCreatedNodes.Clear(); @@ -7455,12 +9505,13 @@ SMESH_MeshEditor::Sew_Error // 1. Build set of faces representing each side: // ======================================================================= // a. build set of nodes belonging to faces - // b. complete set of faces: find missing fices whose nodes are in set of nodes + // b. complete set of faces: find missing faces whose nodes are in set of nodes // c. create temporary faces representing side of volumes if correspondent // face does not exist SMESHDS_Mesh* aMesh = GetMeshDS(); - SMDS_Mesh aTmpFacesMesh; + // TODO algoritm not OK with vtkUnstructuredGrid: 2 meshes can't share nodes + //SMDS_Mesh aTmpFacesMesh; // try to use the same mesh set faceSet1, faceSet2; set volSet1, volSet2; set nodeSet1, nodeSet2; @@ -7470,6 +9521,7 @@ SMESH_MeshEditor::Sew_Error TIDSortedElemSet * elemSetPtr[] = { &theSide1, &theSide2 }; int iSide, iFace, iNode; + list tempFaceList; for ( iSide = 0; iSide < 2; iSide++ ) { set * nodeSet = nodeSetPtr[ iSide ]; TIDSortedElemSet * elemSet = elemSetPtr[ iSide ]; @@ -7497,7 +9549,7 @@ SMESH_MeshEditor::Sew_Error // ----------------------------------------------------------- // 1a. Collect nodes of existing faces // and build set of face nodes in order to detect missing - // faces corresponing to sides of volumes + // faces corresponding to sides of volumes // ----------------------------------------------------------- set< set > setOfFaceNodeSet; @@ -7521,7 +9573,7 @@ SMESH_MeshEditor::Sew_Error volSet->insert( elem ); } // ------------------------------------------------------------------------------ - // 1b. Complete set of faces: find missing fices whose nodes are in set of nodes + // 1b. Complete set of faces: find missing faces whose nodes are in set of nodes // ------------------------------------------------------------------------------ for ( nIt = nodeSet->begin(); nIt != nodeSet->end(); nIt++ ) { // loop on nodes of iSide @@ -7589,18 +9641,23 @@ SMESH_MeshEditor::Sew_Error if ( !aFreeFace ) { // create a temporary face if ( nbNodes == 3 ) { - aFreeFace = aTmpFacesMesh.AddFace( fNodes[0],fNodes[1],fNodes[2] ); + //aFreeFace = aTmpFacesMesh.AddFace( fNodes[0],fNodes[1],fNodes[2] ); + aFreeFace = aMesh->AddFace( fNodes[0],fNodes[1],fNodes[2] ); } else if ( nbNodes == 4 ) { - aFreeFace = aTmpFacesMesh.AddFace( fNodes[0],fNodes[1],fNodes[2],fNodes[3] ); + //aFreeFace = aTmpFacesMesh.AddFace( fNodes[0],fNodes[1],fNodes[2],fNodes[3] ); + aFreeFace = aMesh->AddFace( fNodes[0],fNodes[1],fNodes[2],fNodes[3] ); } else { vector poly_nodes ( fNodes, & fNodes[nbNodes]); - aFreeFace = aTmpFacesMesh.AddPolygonalFace(poly_nodes); + //aFreeFace = aTmpFacesMesh.AddPolygonalFace(poly_nodes); + aFreeFace = aMesh->AddPolygonalFace(poly_nodes); } } - if ( aFreeFace ) + if ( aFreeFace ) { freeFaceList.push_back( aFreeFace ); + tempFaceList.push_back( aFreeFace ); + } } // loop on faces of a volume @@ -7630,7 +9687,7 @@ SMESH_MeshEditor::Sew_Error fIt++; } else - freeFaceList.erase( fIt++ ); // here fIt++ occures before erase + freeFaceList.erase( fIt++ ); // here fIt++ occurs before erase } if ( freeFaceList.size() > 1 ) { @@ -7675,48 +9732,51 @@ SMESH_MeshEditor::Sew_Error const SMDS_MeshElement* aFreeFace = freeFaceList.front(); faceSet->insert( aFreeFace ); // complete a node set with nodes of a found free face -// for ( iNode = 0; iNode < ; iNode++ ) -// nodeSet->insert( fNodes[ iNode ] ); + // for ( iNode = 0; iNode < ; iNode++ ) + // nodeSet->insert( fNodes[ iNode ] ); } } // loop on volumes of a side -// // complete a set of faces if new nodes in a nodeSet appeared -// // ---------------------------------------------------------- -// if ( nodeSetSize != nodeSet->size() ) { -// for ( ; nIt != nodeSet->end(); nIt++ ) { // loop on nodes of iSide -// SMDS_ElemIteratorPtr fIt = (*nIt)->GetInverseElementIterator(SMDSAbs_Face); -// while ( fIt->more() ) { // loop on faces sharing a node -// const SMDS_MeshElement* f = fIt->next(); -// if ( faceSet->find( f ) == faceSet->end() ) { -// // check if all nodes are in nodeSet and -// // complete setOfFaceNodeSet if they are -// set faceNodeSet; -// SMDS_ElemIteratorPtr nodeIt = f->nodesIterator(); -// bool allInSet = true; -// while ( nodeIt->more() && allInSet ) { // loop on nodes of a face -// const SMDS_MeshNode* n = static_cast( nodeIt->next() ); -// if ( nodeSet->find( n ) == nodeSet->end() ) -// allInSet = false; -// else -// faceNodeSet.insert( n ); -// } -// if ( allInSet ) { -// faceSet->insert( f ); -// setOfFaceNodeSet.insert( faceNodeSet ); -// } -// } -// } -// } -// } + // // complete a set of faces if new nodes in a nodeSet appeared + // // ---------------------------------------------------------- + // if ( nodeSetSize != nodeSet->size() ) { + // for ( ; nIt != nodeSet->end(); nIt++ ) { // loop on nodes of iSide + // SMDS_ElemIteratorPtr fIt = (*nIt)->GetInverseElementIterator(SMDSAbs_Face); + // while ( fIt->more() ) { // loop on faces sharing a node + // const SMDS_MeshElement* f = fIt->next(); + // if ( faceSet->find( f ) == faceSet->end() ) { + // // check if all nodes are in nodeSet and + // // complete setOfFaceNodeSet if they are + // set faceNodeSet; + // SMDS_ElemIteratorPtr nodeIt = f->nodesIterator(); + // bool allInSet = true; + // while ( nodeIt->more() && allInSet ) { // loop on nodes of a face + // const SMDS_MeshNode* n = static_cast( nodeIt->next() ); + // if ( nodeSet->find( n ) == nodeSet->end() ) + // allInSet = false; + // else + // faceNodeSet.insert( n ); + // } + // if ( allInSet ) { + // faceSet->insert( f ); + // setOfFaceNodeSet.insert( faceNodeSet ); + // } + // } + // } + // } + // } } // Create temporary faces, if there are volumes given } // loop on sides if ( faceSet1.size() != faceSet2.size() ) { // delete temporary faces: they are in reverseElements of actual nodes - SMDS_FaceIteratorPtr tmpFaceIt = aTmpFacesMesh.facesIterator(); - while ( tmpFaceIt->more() ) - aTmpFacesMesh.RemoveElement( tmpFaceIt->next() ); +// SMDS_FaceIteratorPtr tmpFaceIt = aTmpFacesMesh.facesIterator(); +// while ( tmpFaceIt->more() ) +// aTmpFacesMesh.RemoveElement( tmpFaceIt->next() ); +// list::iterator tmpFaceIt = tempFaceList.begin(); +// for (; tmpFaceIt !=tempFaceList.end(); ++tmpFaceIt) +// aMesh->RemoveElement(*tmpFaceIt); MESSAGE("Diff nb of faces"); return SEW_TOPO_DIFF_SETS_OF_ELEMENTS; } @@ -7814,10 +9874,10 @@ SMESH_MeshEditor::Sew_Error nbl++; if(iSide==0) notLinkNodes1[nbl] = n; - //notLinkNodes1.push_back(n); + //notLinkNodes1.push_back(n); else notLinkNodes2[nbl] = n; - //notLinkNodes2.push_back(n); + //notLinkNodes2.push_back(n); } //faceNodes[ iSide ][ iNode++ ] = n; if(iSide==0) { @@ -7829,10 +9889,11 @@ SMESH_MeshEditor::Sew_Error } } else { // f->IsQuadratic() - const SMDS_QuadraticFaceOfNodes* F = - static_cast(f); + const SMDS_VtkFace* F = + dynamic_cast(f); + if (!F) throw SALOME_Exception(LOCALIZED("not an SMDS_VtkFace")); // use special nodes iterator - SMDS_NodeIteratorPtr anIter = F->interlacedNodesIterator(); + SMDS_ElemIteratorPtr anIter = F->interlacedNodesElemIterator(); while ( anIter->more() ) { const SMDS_MeshNode* n = static_cast( anIter->next() ); @@ -7898,7 +9959,7 @@ SMESH_MeshEditor::Sew_Error //nReplaceMap.insert( TNodeNodeMap::value_type // ( notLinkNodes[0][0], notLinkNodes[1][0] )); nReplaceMap.insert( TNodeNodeMap::value_type - ( notLinkNodes1[0], notLinkNodes2[0] )); + ( notLinkNodes1[0], notLinkNodes2[0] )); } else { for ( iSide = 0; iSide < 2; iSide++ ) { // loop on 2 sides @@ -7919,7 +9980,7 @@ SMESH_MeshEditor::Sew_Error // ( notLinkNodes[0][1], notLinkNodes[1][1] )); for(int nn=0; nnempty() || !faceSetPtr[1]->empty() )) { + ( linkIt[0] != linkList[0].end() || + !faceSetPtr[0]->empty() || !faceSetPtr[1]->empty() )) { MESSAGE( (linkIt[0] != linkList[0].end()) <<" "<< (faceSetPtr[0]->empty()) << - " " << (faceSetPtr[1]->empty())); + " " << (faceSetPtr[1]->empty())); aResult = SEW_TOPO_DIFF_SETS_OF_ELEMENTS; } @@ -7971,9 +10032,12 @@ SMESH_MeshEditor::Sew_Error // ==================================================================== // delete temporary faces: they are in reverseElements of actual nodes - SMDS_FaceIteratorPtr tmpFaceIt = aTmpFacesMesh.facesIterator(); - while ( tmpFaceIt->more() ) - aTmpFacesMesh.RemoveElement( tmpFaceIt->next() ); +// SMDS_FaceIteratorPtr tmpFaceIt = aTmpFacesMesh.facesIterator(); +// while ( tmpFaceIt->more() ) +// aTmpFacesMesh.RemoveElement( tmpFaceIt->next() ); +// list::iterator tmpFaceIt = tempFaceList.begin(); +// for (; tmpFaceIt !=tempFaceList.end(); ++tmpFaceIt) +// aMesh->RemoveElement(*tmpFaceIt); if ( aResult != SEW_OK) return aResult; @@ -8007,7 +10071,21 @@ SMESH_MeshEditor::Sew_Error // elemIDsToRemove.push_back( e->GetID() ); // else if ( nbReplaced ) - aMesh->ChangeElementNodes( e, & nodes[0], nbNodes ); + { + SMDSAbs_ElementType etyp = e->GetType(); + SMDS_MeshElement* newElem = this->AddElement(nodes, etyp, false); + if (newElem) + { + myLastCreatedElems.Append(newElem); + AddToSameGroups(newElem, e, aMesh); + int aShapeId = e->getshapeId(); + if ( aShapeId ) + { + aMesh->SetMeshElementOnShape( newElem, aShapeId ); + } + } + aMesh->RemoveElement(e); + } } } @@ -8017,17 +10095,17 @@ SMESH_MeshEditor::Sew_Error } //================================================================================ - /*! - * \brief Find corresponding nodes in two sets of faces - * \param theSide1 - first face set - * \param theSide2 - second first face - * \param theFirstNode1 - a boundary node of set 1 - * \param theFirstNode2 - a node of set 2 corresponding to theFirstNode1 - * \param theSecondNode1 - a boundary node of set 1 linked with theFirstNode1 - * \param theSecondNode2 - a node of set 2 corresponding to theSecondNode1 - * \param nReplaceMap - output map of corresponding nodes - * \retval bool - is a success or not - */ +/*! + * \brief Find corresponding nodes in two sets of faces + * \param theSide1 - first face set + * \param theSide2 - second first face + * \param theFirstNode1 - a boundary node of set 1 + * \param theFirstNode2 - a node of set 2 corresponding to theFirstNode1 + * \param theSecondNode1 - a boundary node of set 1 linked with theFirstNode1 + * \param theSecondNode2 - a node of set 2 corresponding to theSecondNode1 + * \param nReplaceMap - output map of corresponding nodes + * \retval bool - is a success or not + */ //================================================================================ #ifdef _DEBUG_ @@ -8144,8 +10222,8 @@ SMESH_MeshEditor::FindMatchingNodes(set& theSide1, } #ifdef DEBUG_MATCHING_NODES MESSAGE ( " Link 1: " << link[0].first->GetID() <<" "<< link[0].second->GetID() - << " F 1: " << face[0] << "| Link 2: " << link[1].first->GetID() <<" " - << link[1].second->GetID() << " F 2: " << face[1] << " | Bind: " ) ; + << " F 1: " << face[0] << "| Link 2: " << link[1].first->GetID() <<" " + << link[1].second->GetID() << " F 2: " << face[1] << " | Bind: " ) ; #endif int nbN = nbNodes[0]; { @@ -8176,7 +10254,7 @@ SMESH_MeshEditor::FindMatchingNodes(set& theSide1, { #ifdef DEBUG_MATCHING_NODES MESSAGE ( "Add link 1: " << n1->GetID() << " " << n2->GetID() << " " - << " | link 2: " << nReplaceMap[n1]->GetID() << " " << nReplaceMap[n2]->GetID() << " " ); + << " | link 2: " << nReplaceMap[n1]->GetID() << " " << nReplaceMap[n2]->GetID() << " " ); #endif linkList[0].push_back ( NLink( n1, n2 )); linkList[1].push_back ( NLink( nReplaceMap[n1], nReplaceMap[n2] )); @@ -8189,15 +10267,18 @@ SMESH_MeshEditor::FindMatchingNodes(set& theSide1, return SEW_OK; } +//================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - the list of elements (edges or faces) to be replicated - The nodes for duplication could be found from these elements + The nodes for duplication could be found from these elements \param theNodesNot - list of nodes to NOT replicate \param theAffectedElems - the list of elements (cells and edges) to which the - replicated nodes should be associated to. + replicated nodes should be associated to. \return TRUE if operation has been completed successfully, FALSE otherwise */ +//================================================================================ + bool SMESH_MeshEditor::DoubleNodes( const TIDSortedElemSet& theElems, const TIDSortedElemSet& theNodesNot, const TIDSortedElemSet& theAffectedElems ) @@ -8221,6 +10302,7 @@ bool SMESH_MeshEditor::DoubleNodes( const TIDSortedElemSet& theElems, return res; } +//================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theMeshDS - mesh instance @@ -8230,6 +10312,8 @@ bool SMESH_MeshEditor::DoubleNodes( const TIDSortedElemSet& theElems, \param theIsDoubleElem - flag os to replicate element or modify \return TRUE if operation has been completed successfully, FALSE otherwise */ +//================================================================================ + bool SMESH_MeshEditor::doubleNodes( SMESHDS_Mesh* theMeshDS, const TIDSortedElemSet& theElems, const TIDSortedElemSet& theNodesNot, @@ -8237,9 +10321,10 @@ bool SMESH_MeshEditor::doubleNodes( SMESHDS_Mesh* theMeshDS, const SMDS_MeshNode* >& theNodeNodeMap, const bool theIsDoubleElem ) { + MESSAGE("doubleNodes"); // iterate on through element and duplicate them (by nodes duplication) bool res = false; - const TIDSortedElemSet::iterator elemItr = theElems.begin(); + TIDSortedElemSet::const_iterator elemItr = theElems.begin(); for ( ; elemItr != theElems.end(); ++elemItr ) { const SMDS_MeshElement* anElem = *elemItr; @@ -8253,7 +10338,7 @@ bool SMESH_MeshEditor::doubleNodes( SMESHDS_Mesh* theMeshDS, int ind = 0; while ( anIter->more() ) { - + SMDS_MeshNode* aCurrNode = (SMDS_MeshNode*)anIter->next(); SMDS_MeshNode* aNewNode = aCurrNode; if ( theNodeNodeMap.find( aCurrNode ) != theNodeNodeMap.end() ) @@ -8265,71 +10350,215 @@ bool SMESH_MeshEditor::doubleNodes( SMESHDS_Mesh* theMeshDS, theNodeNodeMap[ aCurrNode ] = aNewNode; myLastCreatedNodes.Append( aNewNode ); } - isDuplicate |= (aCurrNode == aNewNode); + isDuplicate |= (aCurrNode != aNewNode); newNodes[ ind++ ] = aNewNode; } if ( !isDuplicate ) continue; - + if ( theIsDoubleElem ) - myLastCreatedElems.Append( AddElement(newNodes, anElem->GetType(), anElem->IsPoly()) ); + AddElement(newNodes, anElem->GetType(), anElem->IsPoly()); else + { + MESSAGE("ChangeElementNodes"); theMeshDS->ChangeElementNodes( anElem, &newNodes[ 0 ], anElem->NbNodes() ); - + } res = true; } return res; } +//================================================================================ /*! - \brief Check if element located inside shape - \return TRUE if IN or ON shape, FALSE otherwise + \brief Creates a hole in a mesh by doubling the nodes of some particular elements + \param theNodes - identifiers of nodes to be doubled + \param theModifiedElems - identifiers of elements to be updated by the new (doubled) + nodes. If list of element identifiers is empty then nodes are doubled but + they not assigned to elements + \return TRUE if operation has been completed successfully, FALSE otherwise */ +//================================================================================ -static bool isInside(const SMDS_MeshElement* theElem, - BRepClass3d_SolidClassifier& theBsc3d, - const double theTol) +bool SMESH_MeshEditor::DoubleNodes( const std::list< int >& theListOfNodes, + const std::list< int >& theListOfModifiedElems ) { - gp_XYZ centerXYZ (0, 0, 0); - SMDS_ElemIteratorPtr aNodeItr = theElem->nodesIterator(); - while (aNodeItr->more()) + MESSAGE("DoubleNodes"); + myLastCreatedElems.Clear(); + myLastCreatedNodes.Clear(); + + if ( theListOfNodes.size() == 0 ) + return false; + + SMESHDS_Mesh* aMeshDS = GetMeshDS(); + if ( !aMeshDS ) + return false; + + // iterate through nodes and duplicate them + + std::map< const SMDS_MeshNode*, const SMDS_MeshNode* > anOldNodeToNewNode; + + std::list< int >::const_iterator aNodeIter; + for ( aNodeIter = theListOfNodes.begin(); aNodeIter != theListOfNodes.end(); ++aNodeIter ) + { + int aCurr = *aNodeIter; + SMDS_MeshNode* aNode = (SMDS_MeshNode*)aMeshDS->FindNode( aCurr ); + if ( !aNode ) + continue; + + // duplicate node + + const SMDS_MeshNode* aNewNode = aMeshDS->AddNode( aNode->X(), aNode->Y(), aNode->Z() ); + if ( aNewNode ) + { + anOldNodeToNewNode[ aNode ] = aNewNode; + myLastCreatedNodes.Append( aNewNode ); + } + } + + // Create map of new nodes for modified elements + + std::map< SMDS_MeshElement*, vector > anElemToNodes; + + std::list< int >::const_iterator anElemIter; + for ( anElemIter = theListOfModifiedElems.begin(); + anElemIter != theListOfModifiedElems.end(); ++anElemIter ) + { + int aCurr = *anElemIter; + SMDS_MeshElement* anElem = (SMDS_MeshElement*)aMeshDS->FindElement( aCurr ); + if ( !anElem ) + continue; + + vector aNodeArr( anElem->NbNodes() ); + + SMDS_ElemIteratorPtr anIter = anElem->nodesIterator(); + int ind = 0; + while ( anIter->more() ) + { + SMDS_MeshNode* aCurrNode = (SMDS_MeshNode*)anIter->next(); + if ( aCurr && anOldNodeToNewNode.find( aCurrNode ) != anOldNodeToNewNode.end() ) + { + const SMDS_MeshNode* aNewNode = anOldNodeToNewNode[ aCurrNode ]; + aNodeArr[ ind++ ] = aNewNode; + } + else + aNodeArr[ ind++ ] = aCurrNode; + } + anElemToNodes[ anElem ] = aNodeArr; + } + + // Change nodes of elements + + std::map< SMDS_MeshElement*, vector >::iterator + anElemToNodesIter = anElemToNodes.begin(); + for ( ; anElemToNodesIter != anElemToNodes.end(); ++anElemToNodesIter ) + { + const SMDS_MeshElement* anElem = anElemToNodesIter->first; + vector aNodeArr = anElemToNodesIter->second; + if ( anElem ) + { + MESSAGE("ChangeElementNodes"); + aMeshDS->ChangeElementNodes( anElem, &aNodeArr[ 0 ], anElem->NbNodes() ); + } + } + + return true; +} + +namespace { + + //================================================================================ + /*! + \brief Check if element located inside shape + \return TRUE if IN or ON shape, FALSE otherwise + */ + //================================================================================ + + template + bool isInside(const SMDS_MeshElement* theElem, + Classifier& theClassifier, + const double theTol) { - SMDS_MeshNode* aNode = (SMDS_MeshNode*)aNodeItr->next(); - centerXYZ += gp_XYZ(aNode->X(), aNode->Y(), aNode->Z()); + gp_XYZ centerXYZ (0, 0, 0); + SMDS_ElemIteratorPtr aNodeItr = theElem->nodesIterator(); + while (aNodeItr->more()) + centerXYZ += SMESH_MeshEditor::TNodeXYZ(cast2Node( aNodeItr->next())); + + gp_Pnt aPnt = centerXYZ / theElem->NbNodes(); + theClassifier.Perform(aPnt, theTol); + TopAbs_State aState = theClassifier.State(); + return (aState == TopAbs_IN || aState == TopAbs_ON ); } - gp_Pnt aPnt(centerXYZ); - theBsc3d.Perform(aPnt, theTol); - TopAbs_State aState = theBsc3d.State(); - return (aState == TopAbs_IN || aState == TopAbs_ON ); + + //================================================================================ + /*! + * \brief Classifier of the 3D point on the TopoDS_Face + * with interaface suitable for isInside() + */ + //================================================================================ + + struct _FaceClassifier + { + Extrema_ExtPS _extremum; + BRepAdaptor_Surface _surface; + TopAbs_State _state; + + _FaceClassifier(const TopoDS_Face& face):_extremum(),_surface(face),_state(TopAbs_OUT) + { + _extremum.Initialize( _surface, + _surface.FirstUParameter(), _surface.LastUParameter(), + _surface.FirstVParameter(), _surface.LastVParameter(), + _surface.Tolerance(), _surface.Tolerance() ); + } + void Perform(const gp_Pnt& aPnt, double theTol) + { + _state = TopAbs_OUT; + _extremum.Perform(aPnt); + if ( _extremum.IsDone() ) + for ( int iSol = 1; iSol <= _extremum.NbExt() && _state == TopAbs_OUT; ++iSol) + _state = ( _extremum.Value(iSol) <= theTol ? TopAbs_IN : TopAbs_OUT ); + } + TopAbs_State State() const + { + return _state; + } + }; } +//================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - group of of elements (edges or faces) to be replicated - \param theNodesNot - group of nodes not to replicated + \param theNodesNot - group of nodes not to replicate \param theShape - shape to detect affected elements (element which geometric center - located on or inside shape). - The replicated nodes should be associated to affected elements. + located on or inside shape). + The replicated nodes should be associated to affected elements. \return TRUE if operation has been completed successfully, FALSE otherwise */ +//================================================================================ bool SMESH_MeshEditor::DoubleNodesInRegion( const TIDSortedElemSet& theElems, const TIDSortedElemSet& theNodesNot, const TopoDS_Shape& theShape ) { - SMESHDS_Mesh* aMesh = GetMeshDS(); - if (!aMesh) - return false; if ( theShape.IsNull() ) return false; const double aTol = Precision::Confusion(); - BRepClass3d_SolidClassifier bsc3d(theShape); - bsc3d.PerformInfinitePoint(aTol); + auto_ptr< BRepClass3d_SolidClassifier> bsc3d; + auto_ptr<_FaceClassifier> aFaceClassifier; + if ( theShape.ShapeType() == TopAbs_SOLID ) + { + bsc3d.reset( new BRepClass3d_SolidClassifier(theShape));; + bsc3d->PerformInfinitePoint(aTol); + } + else if (theShape.ShapeType() == TopAbs_FACE ) + { + aFaceClassifier.reset( new _FaceClassifier(TopoDS::Face(theShape))); + } // iterates on indicated elements and get elements by back references from their nodes TIDSortedElemSet anAffected; - const TIDSortedElemSet::iterator elemItr = theElems.begin(); + TIDSortedElemSet::const_iterator elemItr = theElems.begin(); for ( ; elemItr != theElems.end(); ++elemItr ) { SMDS_MeshElement* anElem = (SMDS_MeshElement*)*elemItr; @@ -8339,18 +10568,445 @@ bool SMESH_MeshEditor::DoubleNodesInRegion( const TIDSortedElemSet& theElems, SMDS_ElemIteratorPtr nodeItr = anElem->nodesIterator(); while ( nodeItr->more() ) { - const SMDS_MeshNode* aNode = static_cast(nodeItr->next()); + const SMDS_MeshNode* aNode = cast2Node(nodeItr->next()); if ( !aNode || theNodesNot.find(aNode) != theNodesNot.end() ) continue; SMDS_ElemIteratorPtr backElemItr = aNode->GetInverseElementIterator(); while ( backElemItr->more() ) { - SMDS_MeshElement* curElem = (SMDS_MeshElement*)backElemItr->next(); + const SMDS_MeshElement* curElem = backElemItr->next(); if ( curElem && theElems.find(curElem) == theElems.end() && - isInside( curElem, bsc3d, aTol ) ) + ( bsc3d.get() ? + isInside( curElem, *bsc3d, aTol ) : + isInside( curElem, *aFaceClassifier, aTol ))) anAffected.insert( curElem ); } } } return DoubleNodes( theElems, theNodesNot, anAffected ); } + +/*! + * \brief Double nodes on shared faces between groups of volumes and create flat elements on demand. + * The list of groups must describe a partition of the mesh volumes. + * The nodes of the internal faces at the boundaries of the groups are doubled. + * In option, the internal faces are replaced by flat elements. + * Triangles are transformed in prisms, and quadrangles in hexahedrons. + * @param theElems - list of groups of volumes, where a group of volume is a set of + * SMDS_MeshElements sorted by Id. + * @param createJointElems - if TRUE, create the elements + * @return TRUE if operation has been completed successfully, FALSE otherwise + */ +bool SMESH_MeshEditor::DoubleNodesOnGroupBoundaries( const std::vector& theElems, + bool createJointElems) +{ + MESSAGE("------------------------------------------------------"); + MESSAGE("SMESH_MeshEditor::CreateJointElementsOnGroupBoundaries"); + MESSAGE("------------------------------------------------------"); + + SMESHDS_Mesh *meshDS = this->myMesh->GetMeshDS(); + meshDS->BuildDownWardConnectivity(false); + CHRONO(50); + SMDS_UnstructuredGrid *grid = meshDS->getGrid(); + + // --- build the list of faces shared by 2 domains (group of elements), with their domain and volume indexes + // build the list of nodes shared by 2 or more domains, with their domain indexes + + std::map, DownIdCompare> faceDomains; // 2x(id domain --> id volume) + std::map > nodeDomains; //oldId -> (domainId -> newId) + faceDomains.clear(); + nodeDomains.clear(); + std::map emptyMap; + emptyMap.clear(); + + for (int idom = 0; idom < theElems.size(); idom++) + { + + // --- build a map (face to duplicate --> volume to modify) + // with all the faces shared by 2 domains (group of elements) + // and corresponding volume of this domain, for each shared face. + // a volume has a face shared by 2 domains if it has a neighbor which is not in is domain. + + const TIDSortedElemSet& domain = theElems[idom]; + TIDSortedElemSet::const_iterator elemItr = domain.begin(); + for (; elemItr != domain.end(); ++elemItr) + { + SMDS_MeshElement* anElem = (SMDS_MeshElement*) *elemItr; + if (!anElem) + continue; + int vtkId = anElem->getVtkId(); + int neighborsVtkIds[NBMAXNEIGHBORS]; + int downIds[NBMAXNEIGHBORS]; + unsigned char downTypes[NBMAXNEIGHBORS]; + int nbNeighbors = grid->GetNeighbors(neighborsVtkIds, downIds, downTypes, vtkId); + for (int n = 0; n < nbNeighbors; n++) + { + int smdsId = meshDS->fromVtkToSmds(neighborsVtkIds[n]); + const SMDS_MeshElement* elem = meshDS->FindElement(smdsId); + if (! domain.count(elem)) // neighbor is in another domain : face is shared + { + DownIdType face(downIds[n], downTypes[n]); + if (!faceDomains.count(face)) + faceDomains[face] = emptyMap; // create an empty entry for face + if (!faceDomains[face].count(idom)) + { + faceDomains[face][idom] = vtkId; // volume associated to face in this domain + } + } + } + } + } + + MESSAGE("Number of shared faces " << faceDomains.size()); + + // --- for each shared face, get the nodes + // for each node, for each domain of the face, create a clone of the node + + std::map, DownIdCompare>::iterator itface = faceDomains.begin(); + for( ; itface != faceDomains.end();++itface ) + { + DownIdType face = itface->first; + std::map domvol = itface->second; + std::set oldNodes; + oldNodes.clear(); + grid->GetNodeIds(oldNodes, face.cellId, face.cellType); + std::set::iterator itn = oldNodes.begin(); + for (;itn != oldNodes.end(); ++itn) + { + int oldId = *itn; + if (!nodeDomains.count(oldId)) + nodeDomains[oldId] = emptyMap; // create an empty entry for node + std::map::iterator itdom = domvol.begin(); + for(; itdom != domvol.end(); ++itdom) + { + int idom = itdom->first; + if ( nodeDomains[oldId].empty() ) + nodeDomains[oldId][idom] = oldId; // keep the old node in the first domain + else + { + double *coords = grid->GetPoint(oldId); + SMDS_MeshNode *newNode = meshDS->AddNode(coords[0], coords[1], coords[2]); + int newId = newNode->getVtkId(); + nodeDomains[oldId][idom] = newId; // cloned node for other domains + } + } + } + } + + // --- iterate on shared faces (volumes to modify, face to extrude) + // get node id's of the face (id SMDS = id VTK) + // create flat element with old and new nodes if requested + + if (createJointElems) + { + itface = faceDomains.begin(); + for( ; itface != faceDomains.end();++itface ) + { + DownIdType face = itface->first; + std::set oldNodes; + std::set::iterator itn; + oldNodes.clear(); + grid->GetNodeIds(oldNodes, face.cellId, face.cellType); + std::map localClonedNodeIds; + + std::map domvol = itface->second; + std::map::iterator itdom = domvol.begin(); + int dom1 = itdom->first; + int vtkVolId = itdom->second; + itdom++; + int dom2 = itdom->first; + + localClonedNodeIds.clear(); + for (itn = oldNodes.begin(); itn != oldNodes.end(); ++itn) + { + int oldId = *itn; + int refid = oldId; + if (nodeDomains[oldId].count(dom1)) + refid = nodeDomains[oldId][dom1]; + else + MESSAGE("--- problem domain node " << dom1 << " " << oldId); + int newid = oldId; + if (nodeDomains[oldId].count(dom2)) + newid = nodeDomains[oldId][dom2]; + else + MESSAGE("--- problem domain node " << dom2 << " " << oldId); + localClonedNodeIds[oldId] = newid; + } + meshDS->extrudeVolumeFromFace(vtkVolId, localClonedNodeIds); + } + } + + // --- iterate on shared faces (volumes to modify, face to extrude) + // get node id's of the face + // replace old nodes by new nodes in volumes, and update inverse connectivity + + itface = faceDomains.begin(); + for( ; itface != faceDomains.end();++itface ) + { + DownIdType face = itface->first; + std::set oldNodes; + std::set::iterator itn; + oldNodes.clear(); + grid->GetNodeIds(oldNodes, face.cellId, face.cellType); + std::map localClonedNodeIds; + + std::map domvol = itface->second; + std::map::iterator itdom = domvol.begin(); + for(; itdom != domvol.end(); ++itdom) + { + int idom = itdom->first; + int vtkVolId = itdom->second; + localClonedNodeIds.clear(); + for (itn = oldNodes.begin(); itn != oldNodes.end(); ++itn) + { + int oldId = *itn; + if (nodeDomains[oldId].count(idom)) + localClonedNodeIds[oldId] = nodeDomains[oldId][idom]; + } + meshDS->ModifyCellNodes(vtkVolId, localClonedNodeIds); + } + } + grid->BuildLinks(); + + // TODO replace also old nodes by new nodes in faces and edges + CHRONOSTOP(50); + counters::stats(); + return true; +} + +//================================================================================ +/*! + * \brief Generates skin mesh (containing 2D cells) from 3D mesh + * The created 2D mesh elements based on nodes of free faces of boundary volumes + * \return TRUE if operation has been completed successfully, FALSE otherwise + */ +//================================================================================ + +bool SMESH_MeshEditor::Make2DMeshFrom3D() +{ + // iterates on volume elements and detect all free faces on them + SMESHDS_Mesh* aMesh = GetMeshDS(); + if (!aMesh) + return false; + //bool res = false; + int nbFree = 0, nbExisted = 0, nbCreated = 0; + SMDS_VolumeIteratorPtr vIt = aMesh->volumesIterator(); + while(vIt->more()) + { + const SMDS_MeshVolume* volume = vIt->next(); + SMDS_VolumeTool vTool( volume ); + vTool.SetExternalNormal(); + const bool isPoly = volume->IsPoly(); + const bool isQuad = volume->IsQuadratic(); + for ( int iface = 0, n = vTool.NbFaces(); iface < n; iface++ ) + { + if (!vTool.IsFreeFace(iface)) + continue; + nbFree++; + vector nodes; + int nbFaceNodes = vTool.NbFaceNodes(iface); + const SMDS_MeshNode** faceNodes = vTool.GetFaceNodes(iface); + int inode = 0; + for ( ; inode < nbFaceNodes; inode += isQuad ? 2 : 1) + nodes.push_back(faceNodes[inode]); + if (isQuad) + for ( inode = 1; inode < nbFaceNodes; inode += 2) + nodes.push_back(faceNodes[inode]); + + // add new face based on volume nodes + if (aMesh->FindFace( nodes ) ) { + nbExisted++; + continue; // face already exsist + } + AddElement(nodes, SMDSAbs_Face, isPoly && iface == 1); + nbCreated++; + } + } + return ( nbFree==(nbExisted+nbCreated) ); +} + +namespace +{ + inline const SMDS_MeshNode* getNodeWithSameID(SMESHDS_Mesh* mesh, const SMDS_MeshNode* node) + { + if ( const SMDS_MeshNode* n = mesh->FindNode( node->GetID() )) + return n; + return mesh->AddNodeWithID( node->X(),node->Y(),node->Z(), node->GetID() ); + } +} +//================================================================================ +/*! + * \brief Creates missing boundary elements + * \param elements - elements whose boundary is to be checked + * \param dimension - defines type of boundary elements to create + * \param group - a group to store created boundary elements in + * \param targetMesh - a mesh to store created boundary elements in + * \param toCopyElements - if true, the checked elements will be copied into the targetMesh + * \param toCopyExistingBondary - if true, not only new but also pre-existing + * boundary elements will be copied into the targetMesh + */ +//================================================================================ + +void SMESH_MeshEditor::MakeBoundaryMesh(const TIDSortedElemSet& elements, + Bnd_Dimension dimension, + SMESH_Group* group/*=0*/, + SMESH_Mesh* targetMesh/*=0*/, + bool toCopyElements/*=false*/, + bool toCopyExistingBondary/*=false*/) +{ + SMDSAbs_ElementType missType = (dimension == BND_2DFROM3D) ? SMDSAbs_Face : SMDSAbs_Edge; + SMDSAbs_ElementType elemType = (dimension == BND_1DFROM2D) ? SMDSAbs_Face : SMDSAbs_Volume; + // hope that all elements are of the same type, do not check them all + if ( !elements.empty() && (*elements.begin())->GetType() != elemType ) + throw SALOME_Exception(LOCALIZED("wrong element type")); + + if ( !targetMesh ) + toCopyElements = toCopyExistingBondary = false; + + SMESH_MeshEditor tgtEditor( targetMesh ? targetMesh : myMesh ); + SMESHDS_Mesh* aMesh = GetMeshDS(), *tgtMeshDS = tgtEditor.GetMeshDS(); + + SMDS_VolumeTool vTool; + TIDSortedElemSet emptySet, avoidSet; + int inode; + + typedef vector TConnectivity; + + SMDS_ElemIteratorPtr eIt; + if (elements.empty()) + eIt = aMesh->elementsIterator(elemType); + else + eIt = SMDS_ElemIteratorPtr( new TSetIterator( elements.begin(), elements.end() )); + + while (eIt->more()) + { + const SMDS_MeshElement* elem = eIt->next(); + const int iQuad = elem->IsQuadratic(); + + // 1. For an elem, get present bnd elements and connectivities of missing bnd elements + vector presentBndElems; + vector missingBndElems; + TConnectivity nodes; + if ( vTool.Set(elem) ) // elem is a volume ------------------------------------------ + { + vTool.SetExternalNormal(); + for ( int iface = 0, n = vTool.NbFaces(); iface < n; iface++ ) + { + if (!vTool.IsFreeFace(iface)) + continue; + int nbFaceNodes = vTool.NbFaceNodes(iface); + const SMDS_MeshNode** nn = vTool.GetFaceNodes(iface); + if ( missType == SMDSAbs_Edge ) // boundary edges + { + nodes.resize( 2+iQuad ); + for ( int i = 0; i < nbFaceNodes; i += 1+iQuad) + { + for ( int j = 0; j < nodes.size(); ++j ) + nodes[j] =nn[i+j]; + if ( const SMDS_MeshElement* edge = + aMesh->FindElement(nodes,SMDSAbs_Edge,/*noMedium=*/0)) + presentBndElems.push_back( edge ); + else + missingBndElems.push_back( nodes ); + } + } + else // boundary face + { + nodes.clear(); + for ( inode = 0; inode < nbFaceNodes; inode += 1+iQuad) + nodes.push_back( nn[inode] ); + if (iQuad) + for ( inode = 1; inode < nbFaceNodes; inode += 2) + nodes.push_back( nn[inode] ); + + if (const SMDS_MeshFace * f = aMesh->FindFace( nodes ) ) + presentBndElems.push_back( f ); + else + missingBndElems.push_back( nodes ); + } + } + } + else // elem is a face ------------------------------------------ + { + avoidSet.clear(), avoidSet.insert( elem ); + int nbNodes = elem->NbCornerNodes(); + nodes.resize( 2 /*+ iQuad*/); + for ( int i = 0; i < nbNodes; i++ ) + { + nodes[0] = elem->GetNode(i); + nodes[1] = elem->GetNode((i+1)%nbNodes); + if ( FindFaceInSet( nodes[0], nodes[1], emptySet, avoidSet)) + continue; // not free link + + //if ( iQuad ) + //nodes[2] = elem->GetNode( i + nbNodes ); + if ( const SMDS_MeshElement* edge = + aMesh->FindElement(nodes,SMDSAbs_Edge,/*noMedium=*/true)) + presentBndElems.push_back( edge ); + else + missingBndElems.push_back( nodes ); + } + } + + // 2. Add missing boundary elements + if ( targetMesh != myMesh ) + // instead of making a map of nodes in this mesh and targetMesh, + // we create nodes with same IDs. We can renumber them later, if needed + for ( int i = 0; i < missingBndElems.size(); ++i ) + { + TConnectivity& srcNodes = missingBndElems[i]; + TConnectivity nodes( srcNodes.size() ); + for ( inode = 0; inode < nodes.size(); ++inode ) + nodes[inode] = getNodeWithSameID( tgtMeshDS, srcNodes[inode] ); + tgtEditor.AddElement(nodes, missType, elem->IsPoly() && nodes.size()/(iQuad+1)>4); + } + else + for ( int i = 0; i < missingBndElems.size(); ++i ) + { + TConnectivity& nodes = missingBndElems[i]; + tgtEditor.AddElement(nodes, missType, elem->IsPoly() && nodes.size()/(iQuad+1)>4); + } + + // 3. Copy present boundary elements + if ( toCopyExistingBondary ) + for ( int i = 0 ; i < presentBndElems.size(); ++i ) + { + const SMDS_MeshElement* e = presentBndElems[i]; + TConnectivity nodes( e->NbNodes() ); + for ( inode = 0; inode < nodes.size(); ++inode ) + nodes[inode] = getNodeWithSameID( tgtMeshDS, e->GetNode(inode) ); + tgtEditor.AddElement(nodes, missType, e->IsPoly()); + // leave only missing elements in tgtEditor.myLastCreatedElems + tgtEditor.myLastCreatedElems.Remove( tgtEditor.myLastCreatedElems.Size() ); + } + } // loop on given elements + + // 4. Fill group with missing boundary elements + if ( group ) + { + if ( SMESHDS_Group* g = dynamic_cast( group->GetGroupDS() )) + for ( int i = 0; i < tgtEditor.myLastCreatedElems.Size(); ++i ) + g->SMDSGroup().Add( tgtEditor.myLastCreatedElems( i+1 )); + } + tgtEditor.myLastCreatedElems.Clear(); + + // 5. Copy given elements + if ( toCopyElements ) + { + if (elements.empty()) + eIt = aMesh->elementsIterator(elemType); + else + eIt = SMDS_ElemIteratorPtr( new TSetIterator( elements.begin(), elements.end() )); + while (eIt->more()) + { + const SMDS_MeshElement* elem = eIt->next(); + TConnectivity nodes( elem->NbNodes() ); + for ( inode = 0; inode < nodes.size(); ++inode ) + nodes[inode] = getNodeWithSameID( tgtMeshDS, elem->GetNode(inode) ); + tgtEditor.AddElement(nodes, elemType, elem->IsPoly()); + + tgtEditor.myLastCreatedElems.Clear(); + } + } + return; +}