From: gdd Date: Wed, 4 May 2011 17:35:04 +0000 (+0000) Subject: Fix reading of output mesh file X-Git-Tag: V6_3_0~23 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=318f4b2b508cdc470b33f7ff3012f861bffa572e;p=plugins%2Fhybridplugin.git Fix reading of output mesh file --- diff --git a/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx b/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx index fde0b48..da4580e 100644 --- a/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx +++ b/src/GHS3DPlugin/GHS3DPlugin_GHS3D.cxx @@ -964,16 +964,20 @@ static int findShapeID(SMESH_Mesh& mesh, //======================================================================= -static bool readGMFFile(const char* theFile, +static bool readGMFFile(const char* theFile, #ifdef WITH_SMESH_CANCEL_COMPUTE - GHS3DPlugin_GHS3D* theAlgo, + GHS3DPlugin_GHS3D* theAlgo, #endif - SMESH_MesherHelper* theHelper, - TIDSortedNodeSet & theEnforcedNodes, - TIDSortedElemSet & theEnforcedTriangles, - TIDSortedElemSet & theEnforcedQuadrangles) + SMESH_MesherHelper* theHelper, + vector & theNodeByGhs3dId, + TIDSortedNodeSet & theEnforcedNodes, + TIDSortedElemSet & theEnforcedTriangles, + TIDSortedElemSet & theEnforcedQuadrangles) { - SMESHDS_Mesh* theMesh = theHelper->GetMeshDS(); + SMESHDS_Mesh* theMeshDS = theHelper->GetMeshDS(); + + int nbInitialNodes = theNodeByGhs3dId.size(); + std::cout << "theNodeByGhs3dId.size(): " << nbInitialNodes << std::endl; // --------------------------------- // Read generated elements and nodes @@ -985,14 +989,14 @@ static bool readGMFFile(const char* theFile, SMDS_MeshNode** GMFNode; std::map tabRef; - tabRef[GmfVertices] = 3; - tabRef[GmfCorners] = 1; - tabRef[GmfEdges] = 2; - tabRef[GmfRidges] = 1; - tabRef[GmfTriangles] = 3; - tabRef[GmfQuadrilaterals] = 4; - tabRef[GmfTetrahedra] = 4; - tabRef[GmfHexahedra] = 8; + tabRef[GmfVertices] = 3; // for new nodes and enforced nodes +// tabRef[GmfCorners] = 1; + tabRef[GmfEdges] = 2; // for enforced edges +// tabRef[GmfRidges] = 1; + tabRef[GmfTriangles] = 3; // for enforced faces +// tabRef[GmfQuadrilaterals] = 4; + tabRef[GmfTetrahedra] = 4; // for new tetras +// tabRef[GmfHexahedra] = 8; int ver, dim; MESSAGE("Read " << theFile << " file"); @@ -1000,11 +1004,13 @@ static bool readGMFFile(const char* theFile, if (!InpMsh) return false; - // TODO: - Get the medium nodes from quadratic elements - // - Get the 3d elements - theHelper->GetMesh()->Clear(); + // TODO: + // Do not clear mesh : DONE + // Skip input nodes : DONE + // Skip input face (keep only enforced faces) : DONE + // Skip input edge (keep only enforced edges) : DONE - int nbVertices = GmfStatKwd(InpMsh, GmfVertices); + int nbVertices = GmfStatKwd(InpMsh, GmfVertices) - nbInitialNodes; GMFNode = new SMDS_MeshNode*[ nbVertices + 1 ]; nodeAssigne = new int[ nbVertices + 1 ]; @@ -1031,10 +1037,12 @@ static bool readGMFFile(const char* theFile, else continue; - int id[nbElem*tabRef[token]]; + int id[nbElem*tabRef[token]]; // node ids if (token == GmfVertices) { std::cout << " vertices" << std::endl; + std::cout << nbInitialNodes << " from input mesh " << std::endl; + int aGMFID; float VerTab_f[nbElem][3]; @@ -1050,29 +1058,35 @@ static bool readGMFFile(const char* theFile, return false; } #endif - aGMFID = iElem + 1; + if (iElem >= nbInitialNodes) + aGMFID = iElem -nbInitialNodes +1; if (ver == GmfFloat) { GmfGetLin(InpMsh, token, &VerTab_f[nbElem][0], &VerTab_f[nbElem][1], &VerTab_f[nbElem][2], &dummy); - aGMFNode = theMesh->AddNode(VerTab_f[nbElem][0], VerTab_f[nbElem][1], VerTab_f[nbElem][2]); + if (iElem >= nbInitialNodes) + aGMFNode = theMeshDS->AddNode(VerTab_f[nbElem][0], VerTab_f[nbElem][1], VerTab_f[nbElem][2]); } else { GmfGetLin(InpMsh, token, &VerTab_d[nbElem][0], &VerTab_d[nbElem][1], &VerTab_d[nbElem][2], &dummy); - aGMFNode = theMesh->AddNode(VerTab_d[nbElem][0], VerTab_d[nbElem][1], VerTab_d[nbElem][2]); + if (iElem >= nbInitialNodes) + aGMFNode = theMeshDS->AddNode(VerTab_d[nbElem][0], VerTab_d[nbElem][1], VerTab_d[nbElem][2]); + } + if (iElem >= nbInitialNodes) { + GMFNode[ aGMFID ] = aGMFNode; + std::cout << "GMFNode["< 0) { - std::cout << " corners" << std::endl; - for ( int iElem = 0; iElem < nbElem; iElem++ ) - GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]]); - } - else if (token == GmfRidges && nbElem > 0) { - std::cout << " ridges" << std::endl; - for ( int iElem = 0; iElem < nbElem; iElem++ ) - GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]]); - } +// else if (token == GmfCorners && nbElem > 0) { +// std::cout << " corners" << std::endl; +// for ( int iElem = 0; iElem < nbElem; iElem++ ) +// GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]]); +// } +// else if (token == GmfRidges && nbElem > 0) { +// std::cout << " ridges" << std::endl; +// for ( int iElem = 0; iElem < nbElem; iElem++ ) +// GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]]); +// } else if (token == GmfEdges && nbElem > 0) { std::cout << " edges" << std::endl; for ( int iElem = 0; iElem < nbElem; iElem++ ) @@ -1083,33 +1097,34 @@ static bool readGMFFile(const char* theFile, for ( int iElem = 0; iElem < nbElem; iElem++ ) GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &dummy); } - else if (token == GmfQuadrilaterals && nbElem > 0) { - std::cout << " Quadrilaterals" << std::endl; - for ( int iElem = 0; iElem < nbElem; iElem++ ) - GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &id[iElem*tabRef[token]+3], &dummy); - } +// else if (token == GmfQuadrilaterals && nbElem > 0) { +// std::cout << " Quadrilaterals" << std::endl; +// for ( int iElem = 0; iElem < nbElem; iElem++ ) +// GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &id[iElem*tabRef[token]+3], &dummy); +// } else if (token == GmfTetrahedra && nbElem > 0) { std::cout << " Tetrahedra" << std::endl; for ( int iElem = 0; iElem < nbElem; iElem++ ) GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &id[iElem*tabRef[token]+3], &dummy); } - else if (token == GmfHexahedra && nbElem > 0) { - std::cout << " Hexahedra" << std::endl; - for ( int iElem = 0; iElem < nbElem; iElem++ ) - GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &id[iElem*tabRef[token]+3], - &id[iElem*tabRef[token]+4], &id[iElem*tabRef[token]+5], &id[iElem*tabRef[token]+6], &id[iElem*tabRef[token]+7], &dummy); - } +// else if (token == GmfHexahedra && nbElem > 0) { +// std::cout << " Hexahedra" << std::endl; +// for ( int iElem = 0; iElem < nbElem; iElem++ ) +// GmfGetLin(InpMsh, token, &id[iElem*tabRef[token]], &id[iElem*tabRef[token]+1], &id[iElem*tabRef[token]+2], &id[iElem*tabRef[token]+3], +// &id[iElem*tabRef[token]+4], &id[iElem*tabRef[token]+5], &id[iElem*tabRef[token]+6], &id[iElem*tabRef[token]+7], &dummy); +// } std::cout << std::endl; switch (token) { - case GmfCorners: - case GmfRidges: +// case GmfCorners: +// case GmfRidges: case GmfEdges: case GmfTriangles: - case GmfQuadrilaterals: +// case GmfQuadrilaterals: case GmfTetrahedra: - case GmfHexahedra: { - std::vector< SMDS_MeshNode* > node( nbRef ); +// case GmfHexahedra: + { + std::vector< const SMDS_MeshNode* > node( nbRef ); std::vector< int > nodeID( nbRef ); std::vector< SMDS_MeshNode* > enfNode( nbRef ); @@ -1123,33 +1138,48 @@ static bool readGMFFile(const char* theFile, return false; } #endif + // Check if elem is already in input mesh. If yes => skip + bool fullyCreatedElement = false; // if at least one of the nodes was created for ( int iRef = 0; iRef < nbRef; iRef++ ) { aGMFNodeID = id[iElem*tabRef[token]+iRef]; // read nbRef aGMFNodeID - node [ iRef ] = GMFNode[ aGMFNodeID ]; - nodeID[ iRef ] = aGMFNodeID; + if (aGMFNodeID <= nbInitialNodes) // input nodes + { + aGMFNodeID--; + node[ iRef ] = theNodeByGhs3dId[aGMFNodeID]; + } + else + { + fullyCreatedElement = true; + aGMFNodeID -= nbInitialNodes; + nodeID[ iRef ] = aGMFNodeID ; + node [ iRef ] = GMFNode[ aGMFNodeID ]; + } } switch (token) { - case GmfEdges: - theHelper->AddEdge( node[0], node[1] ); break; - case GmfTriangles: { - theMesh->AddFace( node[0], node[1], node[2]); + case GmfEdges: { + if (fullyCreatedElement) + theHelper->AddEdge( node[0], node[1] ); break; } - case GmfQuadrilaterals: { - theMesh->AddFace( node[0], node[1], node[2], node[3] ); + case GmfTriangles: { + if (fullyCreatedElement) + theMeshDS->AddFace( node[0], node[1], node[2]); break; } +// case GmfQuadrilaterals: +// theMeshDS->AddFace( node[0], node[1], node[2], node[3] ); break; case GmfTetrahedra: - theHelper->AddVolume( node[0], node[1], node[2], node[3] ); break; - case GmfHexahedra: - theHelper->AddVolume( node[0], node[3], node[2], node[1], - node[4], node[7], node[6], node[5] ); break; + theHelper->AddVolume( node[0], node[1], node[2], node[3] ); + break; +// case GmfHexahedra: +// theHelper->AddVolume( node[0], node[3], node[2], node[1], +// node[4], node[7], node[6], node[5] ); break; default: continue; } - if ( token == GmfTriangles || token == GmfQuadrilaterals ) // "Quadrilaterals" and "Triangles" + if ( token == GmfTriangles /*|| token == GmfQuadrilaterals*/ ) for ( int iRef = 0; iRef < nbRef; iRef++ ) nodeAssigne[ nodeID[ iRef ]] = 1; } @@ -1169,7 +1199,7 @@ static bool readGMFFile(const char* theFile, } #endif if ( !nodeAssigne[ i+1 ]) - theMesh->SetNodeInVolume( GMFNode[ i+1 ], shapeID ); + theMeshDS->SetNodeInVolume( GMFNode[ i+1 ], shapeID ); } GmfCloseMesh(InpMsh); @@ -1178,18 +1208,18 @@ static bool readGMFFile(const char* theFile, return true; } -static bool writeGMFFile(const char* theMeshFileName, - const char* theRequiredFileName, - const char* theSolFileName, - const SMESH_ProxyMesh& theProxyMesh, - SMESH_Mesh * theMesh, - vector & theNodeByGhs3dId, - vector & theEnforcedNodeByGhs3dId, - TIDSortedNodeSet & theEnforcedNodes, - TIDSortedElemSet & theEnforcedEdges, - TIDSortedElemSet & theEnforcedTriangles, - TIDSortedElemSet & theEnforcedQuadrangles, - GHS3DPlugin_Hypothesis::TEnforcedVertexValues & theEnforcedVertices) +static bool writeGMFFile(const char* theMeshFileName, + const char* theRequiredFileName, + const char* theSolFileName, + const SMESH_ProxyMesh& theProxyMesh, + SMESH_Mesh * theMesh, + vector & theNodeByGhs3dId, + vector & theEnforcedNodeByGhs3dId, + TIDSortedNodeSet & theEnforcedNodes, + TIDSortedElemSet & theEnforcedEdges, + TIDSortedElemSet & theEnforcedTriangles, + TIDSortedElemSet & theEnforcedQuadrangles, + GHS3DPlugin_Hypothesis::TEnforcedVertexValues & theEnforcedVertices ) { MESSAGE("writeGMFFile w/o geometry"); int idx, idxRequired, idxSol; @@ -2583,6 +2613,7 @@ bool GHS3DPlugin_GHS3D::Compute(SMESH_Mesh& theMesh, INFOS( "Can't write into " << aSmdsToGhs3dIdMapFileName); return error(SMESH_Comment("Can't write into ") << aSmdsToGhs3dIdMapFileName); } + INFOS( "Writing ids relation into " << aSmdsToGhs3dIdMapFileName); aIdsFile << "Smds Ghs3d" << std::endl; map ::const_iterator myit; for (myit=aSmdsToGhs3dIdMap.begin() ; myit != aSmdsToGhs3dIdMap.end() ; ++myit) { @@ -2914,7 +2945,7 @@ bool GHS3DPlugin_GHS3D::Compute(SMESH_Mesh& theMesh, #ifdef WITH_SMESH_CANCEL_COMPUTE this, #endif - theHelper, + theHelper, aNodeByGhs3dId, enforcedNodesFromEnforcedElem, enforcedTriangles, enforcedQuadrangles); // #endif @@ -3558,9 +3589,10 @@ bool GHS3DPlugin_GHS3D::importGMFMesh(const char* theGMFFileName, SMESH_Mesh& th SMESH_MesherHelper* helper = new SMESH_MesherHelper(theMesh ); TIDSortedElemSet dummyElemSet; TIDSortedNodeSet dummyNodeSet; + vector dummyNodeVector; return readGMFFile(theGMFFileName, #ifdef WITH_SMESH_CANCEL_COMPUTE this, #endif - helper, dummyNodeSet , dummyElemSet, dummyElemSet); + helper, dummyNodeVector, dummyNodeSet , dummyElemSet, dummyElemSet); }