From: gdd Date: Tue, 3 May 2011 13:29:23 +0000 (+0000) Subject: Enforced meshes X-Git-Tag: V6_3_0~24 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=6359ba4790b65645101828a083fc15770865262f;p=plugins%2Fghs3dplugin.git Enforced meshes --- diff --git a/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx b/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx index b5f4d9d..fde0b48 100644 --- a/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx +++ b/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx @@ -994,14 +994,16 @@ static bool readGMFFile(const char* theFile, tabRef[GmfTetrahedra] = 4; tabRef[GmfHexahedra] = 8; - theHelper->GetMesh()->Clear(); - int ver, dim; MESSAGE("Read " << theFile << " file"); int InpMsh = GmfOpenMesh(theFile, GmfRead, &ver, &dim); if (!InpMsh) return false; + // TODO: - Get the medium nodes from quadratic elements + // - Get the 3d elements + theHelper->GetMesh()->Clear(); + int nbVertices = GmfStatKwd(InpMsh, GmfVertices); GMFNode = new SMDS_MeshNode*[ nbVertices + 1 ]; nodeAssigne = new int[ nbVertices + 1 ]; @@ -1195,8 +1197,9 @@ static bool writeGMFFile(const char* theMeshFileName, GHS3DPlugin_Hypothesis::TEnforcedVertexValues::const_iterator vertexIt; std::vector enfVertexSizes; const SMDS_MeshElement* elem; - TIDSortedElemSet anElemSet, anEnforcedEdgeSet, anEnforcedTriangleSet, anEnforcedQuadrangleSet; - TIDSortedElemSet aQuadElemSet, aQuadEnforcedEdgeSet, aQuadEnforcedTriangleSet, aQuadEnforcedQuadrangleSet; + TIDSortedElemSet anElemSet, anEnforcedEdgeSet, anEnforcedTriangleSet/*, anEnforcedQuadrangleSet*/; + // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// TIDSortedElemSet aQuadElemSet, aQuadEnforcedEdgeSet, aQuadEnforcedTriangleSet, aQuadEnforcedQuadrangleSet; SMDS_ElemIteratorPtr nodeIt; map aNodeToGhs3dIdMap, anEnforcedNodeToGhs3dIdMap; TIDSortedElemSet::iterator elemIt; @@ -1225,10 +1228,11 @@ static bool writeGMFFile(const char* theMeshFileName, while ( eIt->more() ) { elem = eIt->next(); - if (elem->IsQuadratic()) - aQuadElemSet.insert(elem); - else - anElemSet.insert(elem); + // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// if (elem->IsQuadratic()) +// aQuadElemSet.insert(elem); +// else + anElemSet.insert(elem); nodeIt = elem->nodesIterator(); while ( nodeIt->more() ) { @@ -1265,10 +1269,11 @@ static bool writeGMFFile(const char* theMeshFileName, int newId = aNodeToGhs3dIdMap.size() + anEnforcedNodeToGhs3dIdMap.size() + 1; // ghs3d ids count from 1 anEnforcedNodeToGhs3dIdMap.insert( make_pair( node, newId )); } - if (elem->IsQuadratic()) - aQuadEnforcedEdgeSet.insert(elem); - else - anEnforcedEdgeSet.insert(elem); + // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// if (elem->IsQuadratic()) +// aQuadEnforcedEdgeSet.insert(elem); +// else + anEnforcedEdgeSet.insert(elem); } } @@ -1298,45 +1303,47 @@ static bool writeGMFFile(const char* theMeshFileName, int newId = aNodeToGhs3dIdMap.size() + anEnforcedNodeToGhs3dIdMap.size() + 1; // ghs3d ids count from 1 anEnforcedNodeToGhs3dIdMap.insert( make_pair( node, newId )); } - if (elem->IsQuadratic()) - aQuadEnforcedTriangleSet.insert(elem); - else - anEnforcedTriangleSet.insert(elem); + // GHS3D does not accept TrianglesP2 in input mesh file (Ghs3d 4.2) +// if (elem->IsQuadratic()) +// aQuadEnforcedTriangleSet.insert(elem); +// else + anEnforcedTriangleSet.insert(elem); } } /* ENFORCED QUADRANGLES ========================== */ - - // Iterate over the enforced quadrangles - for(elemIt = theEnforcedQuadrangles.begin() ; elemIt != theEnforcedQuadrangles.end() ; ++elemIt) { - elem = (*elemIt); - isOK = true; - nodeIt = elem->nodesIterator(); - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - // Test if point is inside shape to mesh - gp_Pnt myPoint(node->X(),node->Y(),node->Z()); - TopAbs_State result = pntCls->GetPointState( myPoint ); - if ( result != TopAbs_IN ) { - isOK = false; - break; - } - } - if (isOK) { - nodeIt = elem->nodesIterator(); - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - int newId = aNodeToGhs3dIdMap.size() + anEnforcedNodeToGhs3dIdMap.size() + 1; // ghs3d ids count from 1 - anEnforcedNodeToGhs3dIdMap.insert( make_pair( node, newId )); - } - if (elem->IsQuadratic()) - aQuadEnforcedQuadrangleSet.insert(elem); - else - anEnforcedQuadrangleSet.insert(elem); - } - } + // TODO: add pyramids ? +// // Iterate over the enforced quadrangles +// for(elemIt = theEnforcedQuadrangles.begin() ; elemIt != theEnforcedQuadrangles.end() ; ++elemIt) { +// elem = (*elemIt); +// isOK = true; +// nodeIt = elem->nodesIterator(); +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// // Test if point is inside shape to mesh +// gp_Pnt myPoint(node->X(),node->Y(),node->Z()); +// TopAbs_State result = pntCls->GetPointState( myPoint ); +// if ( result != TopAbs_IN ) { +// isOK = false; +// break; +// } +// } +// if (isOK) { +// nodeIt = elem->nodesIterator(); +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// int newId = aNodeToGhs3dIdMap.size() + anEnforcedNodeToGhs3dIdMap.size() + 1; // ghs3d ids count from 1 +// anEnforcedNodeToGhs3dIdMap.insert( make_pair( node, newId )); +// } +// // GHS3D does not accept QuadrilateralsQ2 in input mesh file (Ghs3d 4.2) +// // if (elem->IsQuadratic()) +// // aQuadEnforcedQuadrangleSet.insert(elem); +// // else +// anEnforcedQuadrangleSet.insert(elem); +// } +// } // put nodes to theNodeByGhs3dId vector @@ -1548,7 +1555,8 @@ static bool writeGMFFile(const char* theMeshFileName, // //// } - int nedge[2], ntri[3], nquad[4], nedgeP2[3], ntriP2[6], nquadQ2[9]; + // GHS3D does not accept quadratic elements in input mesh file (Ghs3d 4.2) + int nedge[2], ntri[3]/*, nquad[4]*/ /*, nedgeP2[3], ntriP2[6], nquadQ2[9]*/; // GmfEdges int usedEnforcedEdges = 0; @@ -1578,37 +1586,38 @@ static bool writeGMFFile(const char* theMeshFileName, // GmfCloseMesh(idxRequired); } - // GmfEdgesP2 - int usedEnforcedEdgesP2 = 0; - if (aQuadEnforcedEdgeSet.size()) { -// idxRequired = GmfOpenMesh(theRequiredFileName, GmfWrite, GMFVERSION, GMFDIMENSION); -// if (!idxRequired) -// return false; - GmfSetKwd(idx, GmfEdgesP2, aQuadEnforcedEdgeSet.size()); -// GmfSetKwd(idxRequired, GmfEdges, anEnforcedEdgeSet.size()); - for(elemIt = aQuadEnforcedEdgeSet.begin() ; elemIt != aQuadEnforcedEdgeSet.end() ; ++elemIt) { - elem = (*elemIt); - nodeIt = elem->nodesIterator(); - int index=0; - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); - if (it == anEnforcedNodeToGhs3dIdMap.end()) - throw "Node not found"; - nedgeP2[index] = it->second; - index++; - } - GmfSetLin(idx, GmfEdgesP2, nedgeP2[0], nedgeP2[1], nedgeP2[2], dummyint); -// GmfSetLin(idxRequired, GmfEdges, nedge[0], nedge[1], dummyint); - usedEnforcedEdgesP2++; - } -// GmfCloseMesh(idxRequired); - } + // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// // GmfEdgesP2 +// int usedEnforcedEdgesP2 = 0; +// if (aQuadEnforcedEdgeSet.size()) { +// // idxRequired = GmfOpenMesh(theRequiredFileName, GmfWrite, GMFVERSION, GMFDIMENSION); +// // if (!idxRequired) +// // return false; +// GmfSetKwd(idx, GmfEdgesP2, aQuadEnforcedEdgeSet.size()); +// // GmfSetKwd(idxRequired, GmfEdges, anEnforcedEdgeSet.size()); +// for(elemIt = aQuadEnforcedEdgeSet.begin() ; elemIt != aQuadEnforcedEdgeSet.end() ; ++elemIt) { +// elem = (*elemIt); +// nodeIt = elem->nodesIterator(); +// int index=0; +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); +// if (it == anEnforcedNodeToGhs3dIdMap.end()) +// throw "Node not found"; +// nedgeP2[index] = it->second; +// index++; +// } +// GmfSetLin(idx, GmfEdgesP2, nedgeP2[0], nedgeP2[1], nedgeP2[2], dummyint); +// // GmfSetLin(idxRequired, GmfEdges, nedge[0], nedge[1], dummyint); +// usedEnforcedEdgesP2++; +// } +// // GmfCloseMesh(idxRequired); +// } - if (usedEnforcedEdges+usedEnforcedEdgesP2) { - GmfSetKwd(idx, GmfRequiredEdges, usedEnforcedEdges+usedEnforcedEdgesP2); - for (int enfID=1;enfID<=usedEnforcedEdges+usedEnforcedEdgesP2;enfID++) { + if (usedEnforcedEdges/*+usedEnforcedEdgesP2*/) { + GmfSetKwd(idx, GmfRequiredEdges, usedEnforcedEdges/*+usedEnforcedEdgesP2*/); + for (int enfID=1;enfID<=usedEnforcedEdges/*+usedEnforcedEdgesP2*/;enfID++) { GmfSetLin(idx, GmfRequiredEdges, enfID); } } @@ -1652,103 +1661,106 @@ static bool writeGMFFile(const char* theMeshFileName, } } - // GmfTrianglesP2 - int usedEnforcedTrianglesP2 = 0; - if (aQuadElemSet.size()+aQuadEnforcedTriangleSet.size()) { - GmfSetKwd(idx, GmfTrianglesP2, aQuadElemSet.size()+aQuadEnforcedTriangleSet.size()); - for(elemIt = aQuadElemSet.begin() ; elemIt != aQuadElemSet.end() ; ++elemIt) { - elem = (*elemIt); - nodeIt = elem->nodesIterator(); - int index=0; - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - map< const SMDS_MeshNode*,int >::iterator it = aNodeToGhs3dIdMap.find(node); - if (it == aNodeToGhs3dIdMap.end()) - throw "Node not found"; - ntriP2[index] = it->second; - index++; - } - GmfSetLin(idx, GmfTrianglesP2, ntriP2[0], ntriP2[1], ntriP2[2], ntriP2[3], ntriP2[4], ntriP2[5], dummyint); - } - if (aQuadEnforcedTriangleSet.size()) { - for(elemIt = aQuadEnforcedTriangleSet.begin() ; elemIt != aQuadEnforcedTriangleSet.end() ; ++elemIt) { - elem = (*elemIt); - nodeIt = elem->nodesIterator(); - int index=0; - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); - if (it == anEnforcedNodeToGhs3dIdMap.end()) - throw "Node not found"; - ntriP2[index] = it->second; - index++; - } - GmfSetLin(idx, GmfTrianglesP2, ntriP2[0], ntriP2[1], ntriP2[2], ntriP2[3], ntriP2[4], ntriP2[5], dummyint); - usedEnforcedTrianglesP2++; - } - } - } - - if (usedEnforcedTriangles+usedEnforcedTrianglesP2) { - GmfSetKwd(idx, GmfRequiredTriangles, usedEnforcedTriangles+usedEnforcedTrianglesP2); - for (int enfID=1;enfID<=usedEnforcedTriangles+usedEnforcedTrianglesP2;enfID++) - GmfSetLin(idx, GmfRequiredTriangles, anElemSet.size()+aQuadElemSet.size()+enfID); - } - - // GmfQuadrangles - int usedEnforcedQuadrilaterals = 0; - if (anEnforcedQuadrangleSet.size()) { - GmfSetKwd(idx, GmfQuadrilaterals, anEnforcedQuadrangleSet.size()); - for(elemIt = anEnforcedQuadrangleSet.begin() ; elemIt != anEnforcedQuadrangleSet.end() ; ++elemIt) { - elem = (*elemIt); - nodeIt = elem->nodesIterator(); - int index=0; - for ( int j = 0; j < 4; ++j ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); - if (it == anEnforcedNodeToGhs3dIdMap.end()) - throw "Node not found"; - nquad[index] = it->second; - index++; - } - GmfSetLin(idx, GmfQuadrilaterals, nquad[0], nquad[1], nquad[2], nquad[3], dummyint); - usedEnforcedQuadrilaterals++; - } - } - - // GmfQuadranglesQ2 - int usedEnforcedQuadrilateralsQ2 = 0; - if (aQuadEnforcedQuadrangleSet.size()) { - GmfSetKwd(idx, GmfQuadrilateralsQ2, aQuadEnforcedQuadrangleSet.size()); - for(elemIt = aQuadEnforcedQuadrangleSet.begin() ; elemIt != aQuadEnforcedQuadrangleSet.end() ; ++elemIt) { - elem = (*elemIt); - nodeIt = elem->nodesIterator(); - int index=0; - while ( nodeIt->more() ) { - // find GHS3D ID - const SMDS_MeshNode* node = castToNode( nodeIt->next() ); - map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); - if (it == anEnforcedNodeToGhs3dIdMap.end()) - throw "Node not found"; - nquadQ2[index] = it->second; - index++; - } - // - // !!! The last value in nquadQ2 is missing because in Salome the quadratic quadrilaterals have only 8 points !!! - // - GmfSetLin(idx, GmfQuadrilateralsQ2, nquadQ2[0], nquadQ2[1], nquadQ2[2], nquadQ2[3], nquadQ2[4], nquadQ2[5], nquadQ2[6], nquadQ2[7], nquadQ2[8], dummyint); - usedEnforcedQuadrilateralsQ2++; - } - } + // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// // GmfTrianglesP2 +// int usedEnforcedTrianglesP2 = 0; +// if (aQuadElemSet.size()+aQuadEnforcedTriangleSet.size()) { +// GmfSetKwd(idx, GmfTrianglesP2, aQuadElemSet.size()+aQuadEnforcedTriangleSet.size()); +// for(elemIt = aQuadElemSet.begin() ; elemIt != aQuadElemSet.end() ; ++elemIt) { +// elem = (*elemIt); +// nodeIt = elem->nodesIterator(); +// int index=0; +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// map< const SMDS_MeshNode*,int >::iterator it = aNodeToGhs3dIdMap.find(node); +// if (it == aNodeToGhs3dIdMap.end()) +// throw "Node not found"; +// ntriP2[index] = it->second; +// index++; +// } +// GmfSetLin(idx, GmfTrianglesP2, ntriP2[0], ntriP2[1], ntriP2[2], ntriP2[3], ntriP2[4], ntriP2[5], dummyint); +// } +// if (aQuadEnforcedTriangleSet.size()) { +// for(elemIt = aQuadEnforcedTriangleSet.begin() ; elemIt != aQuadEnforcedTriangleSet.end() ; ++elemIt) { +// elem = (*elemIt); +// nodeIt = elem->nodesIterator(); +// int index=0; +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); +// if (it == anEnforcedNodeToGhs3dIdMap.end()) +// throw "Node not found"; +// ntriP2[index] = it->second; +// index++; +// } +// GmfSetLin(idx, GmfTrianglesP2, ntriP2[0], ntriP2[1], ntriP2[2], ntriP2[3], ntriP2[4], ntriP2[5], dummyint); +// usedEnforcedTrianglesP2++; +// } +// } +// } - if (usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2) { - GmfSetKwd(idx, GmfRequiredQuadrilaterals, usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2); - for (int enfID=1;enfID<=usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2;enfID++) - GmfSetLin(idx, GmfRequiredQuadrilaterals, enfID); - } + if (usedEnforcedTriangles/*+usedEnforcedTrianglesP2*/) { + GmfSetKwd(idx, GmfRequiredTriangles, usedEnforcedTriangles/*+usedEnforcedTrianglesP2*/); + for (int enfID=1;enfID<=usedEnforcedTriangles/*+usedEnforcedTrianglesP2*/;enfID++) + GmfSetLin(idx, GmfRequiredTriangles, anElemSet.size()/*+aQuadElemSet.size()*/+enfID); + } + + // TODO +// // GmfQuadrangles +// int usedEnforcedQuadrilaterals = 0; +// if (anEnforcedQuadrangleSet.size()) { +// GmfSetKwd(idx, GmfQuadrilaterals, anEnforcedQuadrangleSet.size()); +// for(elemIt = anEnforcedQuadrangleSet.begin() ; elemIt != anEnforcedQuadrangleSet.end() ; ++elemIt) { +// elem = (*elemIt); +// nodeIt = elem->nodesIterator(); +// int index=0; +// for ( int j = 0; j < 4; ++j ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); +// if (it == anEnforcedNodeToGhs3dIdMap.end()) +// throw "Node not found"; +// nquad[index] = it->second; +// index++; +// } +// GmfSetLin(idx, GmfQuadrilaterals, nquad[0], nquad[1], nquad[2], nquad[3], dummyint); +// usedEnforcedQuadrilaterals++; +// } +// } +// +// // GHS3D does not accept EdgesP2 in input mesh file (Ghs3d 4.2) +// // GmfQuadranglesQ2 +// int usedEnforcedQuadrilateralsQ2 = 0; +// if (aQuadEnforcedQuadrangleSet.size()) { +// GmfSetKwd(idx, GmfQuadrilateralsQ2, aQuadEnforcedQuadrangleSet.size()); +// for(elemIt = aQuadEnforcedQuadrangleSet.begin() ; elemIt != aQuadEnforcedQuadrangleSet.end() ; ++elemIt) { +// elem = (*elemIt); +// nodeIt = elem->nodesIterator(); +// int index=0; +// while ( nodeIt->more() ) { +// // find GHS3D ID +// const SMDS_MeshNode* node = castToNode( nodeIt->next() ); +// map< const SMDS_MeshNode*,int >::iterator it = anEnforcedNodeToGhs3dIdMap.find(node); +// if (it == anEnforcedNodeToGhs3dIdMap.end()) +// throw "Node not found"; +// nquadQ2[index] = it->second; +// index++; +// } +// // +// // !!! The last value in nquadQ2 is missing because in Salome the quadratic quadrilaterals have only 8 points !!! +// // +// GmfSetLin(idx, GmfQuadrilateralsQ2, nquadQ2[0], nquadQ2[1], nquadQ2[2], nquadQ2[3], nquadQ2[4], nquadQ2[5], nquadQ2[6], nquadQ2[7], nquadQ2[8], dummyint); +// usedEnforcedQuadrilateralsQ2++; +// } +// } +// +// if (usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2) { +// GmfSetKwd(idx, GmfRequiredQuadrilaterals, usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2); +// for (int enfID=1;enfID<=usedEnforcedQuadrilaterals+usedEnforcedQuadrilateralsQ2;enfID++) +// GmfSetLin(idx, GmfRequiredQuadrilaterals, enfID); +// } GmfCloseMesh(idx); if (idxRequired) @@ -2032,58 +2044,59 @@ static bool writeGMFFile(const char* theMeshFileName, } /* QUADRANGLES ========================== */ - if (nbQuadrangles) { - for ( int i = 1; i <= quadranglesMap.Extent(); i++ ) - { - aShape = quadranglesMap(i); - theSubMesh = theProxyMesh.GetSubMesh(aShape); - if ( !theSubMesh ) continue; - itOnSubMesh = theSubMesh->GetElements(); - for ( int j = 0; j < 4; ++j ) - { - aFace = itOnSubMesh->next(); - itOnSubFace = aFace->nodesIterator(); - aqt.clear(); - while ( itOnSubFace->more() ) { - // find GHS3D ID - aSmdsID = itOnSubFace->next()->GetID(); - itOnMap = theSmdsToGhs3dIdMap.find( aSmdsID ); - ASSERT( itOnMap != theSmdsToGhs3dIdMap.end() ); - aqt.push_back((*itOnMap).second); - } - qt.push_back(aqt); - } - } - } - - if (theEnforcedQuadrangles.size()) { - // Iterate over the enforced triangles - for(elemIt = theEnforcedQuadrangles.begin() ; elemIt != theEnforcedQuadrangles.end() ; ++elemIt) { - aFace = (*elemIt); - bool isOK = true; - itOnSubFace = aFace->nodesIterator(); - aqt.clear(); - for ( int j = 0; j < 4; ++j ) { - int aNodeID = itOnSubFace->next()->GetID(); - itOnMap = theNodeId2NodeIndexMap.find(aNodeID); - if (itOnMap != theNodeId2NodeIndexMap.end()) - aqt.push_back((*itOnMap).second); - else { - isOK = false; - theEnforcedQuadrangles.erase(elemIt); - break; - } - } - if (isOK) - qt.push_back(aqt); - } - } - - if (qt.size()) { - GmfSetKwd(idx, GmfQuadrilaterals, qt.size()); - for (int i=0;iGetElements(); +// for ( int j = 0; j < 4; ++j ) +// { +// aFace = itOnSubMesh->next(); +// itOnSubFace = aFace->nodesIterator(); +// aqt.clear(); +// while ( itOnSubFace->more() ) { +// // find GHS3D ID +// aSmdsID = itOnSubFace->next()->GetID(); +// itOnMap = theSmdsToGhs3dIdMap.find( aSmdsID ); +// ASSERT( itOnMap != theSmdsToGhs3dIdMap.end() ); +// aqt.push_back((*itOnMap).second); +// } +// qt.push_back(aqt); +// } +// } +// } +// +// if (theEnforcedQuadrangles.size()) { +// // Iterate over the enforced triangles +// for(elemIt = theEnforcedQuadrangles.begin() ; elemIt != theEnforcedQuadrangles.end() ; ++elemIt) { +// aFace = (*elemIt); +// bool isOK = true; +// itOnSubFace = aFace->nodesIterator(); +// aqt.clear(); +// for ( int j = 0; j < 4; ++j ) { +// int aNodeID = itOnSubFace->next()->GetID(); +// itOnMap = theNodeId2NodeIndexMap.find(aNodeID); +// if (itOnMap != theNodeId2NodeIndexMap.end()) +// aqt.push_back((*itOnMap).second); +// else { +// isOK = false; +// theEnforcedQuadrangles.erase(elemIt); +// break; +// } +// } +// if (isOK) +// qt.push_back(aqt); +// } +// } +// +// if (qt.size()) { +// GmfSetKwd(idx, GmfQuadrilaterals, qt.size()); +// for (int i=0;i & theSmdsToGhs3dIdMap, -// const map & theEnforcedNodeIdToGhs3dIdMap, -// TIDSortedElemSet & theEnforcedEdges, -// TIDSortedElemSet & theEnforcedTriangles, -// TIDSortedElemSet & theEnforcedQuadrangles) -// { -// // record structure: -// // -// // NB_ELEMS DUMMY_INT -// // Loop from 1 to NB_ELEMS -// // NB_NODES NODE_NB_1 NODE_NB_2 ... (NB_NODES + 1) times: DUMMY_INT -// -// TopoDS_Shape aShape; -// const SMESHDS_SubMesh* theSubMesh; -// const SMDS_MeshElement* aFace; -// const char* space = " "; -// const int dummyint = 0; -// map::const_iterator itOnMap; -// SMDS_ElemIteratorPtr itOnSubMesh, itOnSubFace; -// int nbNodes, aSmdsID; -// -// TIDSortedElemSet::const_iterator elemIt; -// int nbEnforcedEdges = theEnforcedEdges.size(); -// int nbEnforcedTriangles = theEnforcedTriangles.size(); -// int nbEnforcedQuadrangles = theEnforcedQuadrangles.size(); -// // count triangles bound to geometry -// int nbTriangles = 0; -// -// TopTools_IndexedMapOfShape facesMap, trianglesMap, quadranglesMap; -// TopExp::MapShapes( theShape, TopAbs_FACE, facesMap ); -// -// for ( int i = 1; i <= facesMap.Extent(); ++i ) -// if (( theSubMesh = theMesh.GetSubMesh( facesMap(i)))) -// nbTriangles += theSubMesh->NbElements(); -// -// std::cout << " " << facesMap.Extent() << " shapes of 2D dimension and" << std::endl; -// if (nbEnforcedEdges+nbEnforcedTriangles+nbEnforcedQuadrangles) -// std::cout << " " << nbEnforcedEdges+nbEnforcedTriangles+nbEnforcedQuadrangles -// << " enforced shapes:" << std::endl; -// if (nbEnforcedEdges) -// std::cout << " " << nbEnforcedEdges << " enforced edges" << std::endl; -// if (nbEnforcedTriangles) -// std::cout << " " << nbEnforcedTriangles << " enforced triangles" << std::endl; -// if (nbEnforcedQuadrangles) -// std::cout << " " << nbEnforcedQuadrangles << " enforced quadrangles" << std::endl; -// std::cout << std::endl; -// -// // theFile << space << nbTriangles << space << dummyint << std::endl; -// std::ostringstream globalStream, localStream, aStream; -// -// // -// // FACES : BEGIN -// // -// -// for ( int i = 1; i <= facesMap.Extent(); i++ ) -// { -// aShape = facesMap(i); -// theSubMesh = theMesh.GetSubMesh(aShape); -// if ( !theSubMesh ) continue; -// itOnSubMesh = theSubMesh->GetElements(); -// while ( itOnSubMesh->more() ) -// { -// aFace = itOnSubMesh->next(); -// nbNodes = aFace->NbNodes(); -// -// localStream << nbNodes << space; -// -// itOnSubFace = aFace->nodesIterator(); -// while ( itOnSubFace->more() ) { -// // find GHS3D ID -// aSmdsID = itOnSubFace->next()->GetID(); -// itOnMap = theSmdsToGhs3dIdMap.find( aSmdsID ); -// // if ( itOnMap == theSmdsToGhs3dIdMap.end() ) { -// // cout << "not found node: " << aSmdsID << endl; -// // return false; -// // } -// ASSERT( itOnMap != theSmdsToGhs3dIdMap.end() ); -// -// localStream << (*itOnMap).second << space ; -// } -// -// // (NB_NODES + 1) times: DUMMY_INT -// for ( int j=0; j<=nbNodes; j++) -// localStream << dummyint << space ; -// -// localStream << std::endl; -// } -// } -// -// globalStream << localStream.str(); -// localStream.str(""); -// -// // -// // FACES : END -// // -// -// // -// // ENFORCED EDGES : BEGIN -// // -// -// // Iterate over the enforced edges -// int usedEnforcedEdges = 0; -// bool isOK; -// for(elemIt = theEnforcedEdges.begin() ; elemIt != theEnforcedEdges.end() ; ++elemIt) { -// aFace = (*elemIt); -// isOK = true; -// itOnSubFace = aFace->nodesIterator(); -// aStream.str(""); -// aStream << "2" << space ; -// while ( itOnSubFace->more() ) { -// aSmdsID = itOnSubFace->next()->GetID(); -// itOnMap = theEnforcedNodeIdToGhs3dIdMap.find(aSmdsID); -// if (itOnMap != theEnforcedNodeIdToGhs3dIdMap.end()) -// aStream << (*itOnMap).second << space; -// else { -// isOK = false; -// break; -// } -// } -// if (isOK) { -// for ( int j=0; j<=2; j++) -// aStream << dummyint << space ; -// // aStream << dummyint << space << dummyint; -// localStream << aStream.str() << std::endl; -// usedEnforcedEdges++; -// } -// } -// -// if (usedEnforcedEdges) { -// globalStream << localStream.str(); -// localStream.str(""); -// } -// -// // -// // ENFORCED EDGES : END -// // -// // -// -// // -// // ENFORCED TRIANGLES : BEGIN -// // -// // Iterate over the enforced triangles -// int usedEnforcedTriangles = 0; -// for(elemIt = theEnforcedTriangles.begin() ; elemIt != theEnforcedTriangles.end() ; ++elemIt) { -// aFace = (*elemIt); -// isOK = true; -// itOnSubFace = aFace->nodesIterator(); -// aStream.str(""); -// aStream << "3" << space ; -// while ( itOnSubFace->more() ) { -// aSmdsID = itOnSubFace->next()->GetID(); -// itOnMap = theEnforcedNodeIdToGhs3dIdMap.find(aSmdsID); -// if (itOnMap != theEnforcedNodeIdToGhs3dIdMap.end()) -// aStream << (*itOnMap).second << space; -// else { -// isOK = false; -// break; -// } -// } -// if (isOK) { -// for ( int j=0; j<=3; j++) -// aStream << dummyint << space ; -// localStream << aStream.str() << std::endl; -// usedEnforcedTriangles++; -// } -// } -// -// if (usedEnforcedTriangles) { -// globalStream << localStream.str(); -// localStream.str(""); -// } -// -// // -// // ENFORCED TRIANGLES : END -// // -// -// // -// // ENFORCED QUADRANGLES : BEGIN -// // -// // Iterate over the enforced quadrangles -// int usedEnforcedQuadrangles = 0; -// for(elemIt = theEnforcedQuadrangles.begin() ; elemIt != theEnforcedQuadrangles.end() ; ++elemIt) { -// aFace = (*elemIt); -// isOK = true; -// itOnSubFace = aFace->nodesIterator(); -// aStream.str(""); -// aStream << "4" << space ; -// while ( itOnSubFace->more() ) { -// aSmdsID = itOnSubFace->next()->GetID(); -// itOnMap = theEnforcedNodeIdToGhs3dIdMap.find(aSmdsID); -// if (itOnMap != theEnforcedNodeIdToGhs3dIdMap.end()) -// aStream << (*itOnMap).second << space; -// else { -// isOK = false; -// break; -// } -// } -// if (isOK) { -// for ( int j=0; j<=4; j++) -// aStream << dummyint << space ; -// localStream << aStream.str() << std::endl; -// usedEnforcedQuadrangles++; -// } -// } -// -// if (usedEnforcedQuadrangles) { -// globalStream << localStream.str(); -// localStream.str(""); -// } -// // -// // ENFORCED QUADRANGLES : END -// // -// -// theFile -// << nbTriangles+usedEnforcedQuadrangles+usedEnforcedTriangles+usedEnforcedEdges -// << " 0" << std::endl -// << globalStream.str(); -// -// return true; -// } - -//======================================================================= -//function : writePoints -//purpose : -//======================================================================= - -// static bool writePoints (ofstream & theFile, -// SMESH_MesherHelper& theHelper, -// map & theSmdsToGhs3dIdMap, -// map & theEnforcedNodeIdToGhs3dIdMap, -// map & theGhs3dIdToNodeMap, -// GHS3DPlugin_Hypothesis::TID2SizeMap & theNodeIDToSizeMap, -// GHS3DPlugin_Hypothesis::TEnforcedVertexValues & theEnforcedVertices, -// TIDSortedNodeSet & theEnforcedNodes) -// { -// // record structure: -// // -// // NB_NODES -// // Loop from 1 to NB_NODES -// // X Y Z DUMMY_INT -// -// SMESHDS_Mesh * theMesh = theHelper.GetMeshDS(); -// int nbNodes = theMesh->NbNodes(); -// if ( nbNodes == 0 ) -// return false; -// int nbEnforcedVertices = theEnforcedVertices.size(); -// int nbEnforcedNodes = theEnforcedNodes.size(); -// -// int aGhs3dID = 1; -// SMDS_NodeIteratorPtr it = theMesh->nodesIterator(); -// const SMDS_MeshNode* node; -// -// // Issue 020674: EDF 870 SMESH: Mesh generated by Netgen not usable by GHS3D -// // The problem is in nodes on degenerated edges, we need to skip them -// if ( theHelper.HasDegeneratedEdges() ) -// { -// // here we decrease total nb of nodes by nb of nodes on degenerated edges -// set checkedSM; -// for (TopExp_Explorer e(theMesh->ShapeToMesh(), TopAbs_EDGE ); e.More(); e.Next()) -// { -// SMESH_subMesh* sm = theHelper.GetMesh()->GetSubMesh( e.Current() ); -// if ( checkedSM.insert( sm->GetId() ).second && theHelper.IsDegenShape(sm->GetId() )) { -// if ( sm->GetSubMeshDS() ) -// nbNodes -= sm->GetSubMeshDS()->NbNodes(); -// } -// } -// } -// -// const bool isQuadMesh = -// theHelper.GetMesh()->NbEdges( ORDER_QUADRATIC ) || -// theHelper.GetMesh()->NbFaces( ORDER_QUADRATIC ) || -// theHelper.GetMesh()->NbVolumes( ORDER_QUADRATIC ); -// if ( isQuadMesh ) -// { -// // descrease nbNodes by nb of medium nodes -// while ( it->more() ) -// { -// node = it->next(); -// if ( !theHelper.IsDegenShape( node->getshapeId() )) -// nbNodes -= int( theHelper.IsMedium( node )); -// } -// it = theMesh->nodesIterator(); -// } -// -// const char* space = " "; -// const int dummyint = 0; -// -// // NB_NODES -// std::cout << std::endl; -// std::cout << "The initial 2D mesh contains :" << std::endl; -// std::cout << " " << nbNodes << " nodes" << std::endl; -// if (nbEnforcedVertices > 0) -// std::cout << " " << nbEnforcedVertices << " enforced vertices" << std::endl; -// if (nbEnforcedNodes > 0) -// std::cout << " " << nbEnforcedNodes << " enforced nodes" << std::endl; -// -// // std::cout << std::endl; -// // std::cout << "Start writing in 'points' file ..." << std::endl; -// theFile << nbNodes << space << std::endl; -// -// // Loop from 1 to NB_NODES -// -// while ( it->more() ) -// { -// node = it->next(); -// if (( isQuadMesh && theHelper.IsMedium( node )) || // Issue 0021238 -// theHelper.IsDegenShape( node->getshapeId() )) // Issue 0020674 -// continue; -// -// theSmdsToGhs3dIdMap.insert( make_pair( node->GetID(), aGhs3dID )); -// theGhs3dIdToNodeMap.insert( make_pair( aGhs3dID, node )); -// aGhs3dID++; -// -// // X Y Z DUMMY_INT -// theFile -// << node->X() << space -// << node->Y() << space -// << node->Z() << space -// << dummyint << space ; -// theFile << std::endl; -// -// } -// -// // Iterate over the enforced nodes -// TIDSortedNodeSet::const_iterator nodeIt; -// std::map enfVertexIndexSizeMap; -// if (nbEnforcedNodes) { -// for(nodeIt = theEnforcedNodes.begin() ; nodeIt != theEnforcedNodes.end() ; ++nodeIt) { -// double x = (*nodeIt)->X(); -// double y = (*nodeIt)->Y(); -// double z = (*nodeIt)->Z(); -// // Test if point is inside shape to mesh -// gp_Pnt myPoint(x,y,z); -// BRepClass3d_SolidClassifier scl(theMesh->ShapeToMesh()); -// scl.Perform(myPoint, 1e-7); -// TopAbs_State result = scl.State(); -// if ( result != TopAbs_IN ) -// continue; -// std::vector coords; -// coords.push_back(x); -// coords.push_back(y); -// coords.push_back(z); -// if (theEnforcedVertices.find(coords) != theEnforcedVertices.end()) -// continue; -// -// double size = theNodeIDToSizeMap.find((*nodeIt)->GetID())->second; -// // theGhs3dIdToNodeMap.insert( make_pair( nbNodes + i, (*nodeIt) )); -// // MESSAGE("Adding enforced node (" << x << "," << y <<"," << z << ")"); -// // X Y Z PHY_SIZE DUMMY_INT -// theFile -// << x << space -// << y << space -// << z << space -// << size << space -// << dummyint << space; -// theFile << std::endl; -// theEnforcedNodeIdToGhs3dIdMap.insert( make_pair( (*nodeIt)->GetID(), aGhs3dID )); -// enfVertexIndexSizeMap[aGhs3dID] = -1; -// aGhs3dID++; -// // else -// // MESSAGE("Enforced vertex (" << x << "," << y <<"," << z << ") is not inside the geometry: it was not added "); -// } -// } -// -// if (nbEnforcedVertices) { -// // Iterate over the enforced vertices -// GHS3DPlugin_Hypothesis::TEnforcedVertexValues::const_iterator vertexIt; -// // int i = 1; -// for(vertexIt = theEnforcedVertices.begin() ; vertexIt != theEnforcedVertices.end() ; ++vertexIt) { -// double x = vertexIt->first[0]; -// double y = vertexIt->first[1]; -// double z = vertexIt->first[2]; -// // Test if point is inside shape to mesh -// gp_Pnt myPoint(x,y,z); -// BRepClass3d_SolidClassifier scl(theMesh->ShapeToMesh()); -// scl.Perform(myPoint, 1e-7); -// TopAbs_State result = scl.State(); -// if ( result != TopAbs_IN ) -// continue; -// // MESSAGE("Adding enforced vertex (" << x << "," << y <<"," << z << ") = " << vertexIt->second); -// // X Y Z PHY_SIZE DUMMY_INT -// theFile -// << x << space -// << y << space -// << z << space -// << vertexIt->second << space -// << dummyint << space; -// theFile << std::endl; -// enfVertexIndexSizeMap[aGhs3dID] = vertexIt->second; -// aGhs3dID++; -// -// // else -// // MESSAGE("Enforced vertex (" << x << "," << y <<"," << z << ") is not inside the geometry: it was not added "); -// } -// } -// theFile << std::endl; -// -// -// // std::cout << std::endl; -// // std::cout << "End writing in 'points' file." << std::endl; -// -// return true; -// } - //======================================================================= //function : readResultFile