bool HesperisInterface::ReadCurveData(GeometryArray * data) { if(!CheckFileExists()) return false; HesperisFile hes; hes.setReadComponent(HesperisFile::RCurve); if(!hes.open(FileName)) return false; hes.close(); hes.extractCurves(data); return data->numGeometries() > 0; }
bool HesperisInterface::ReadCurveData(CurveGroup * data) { if(!CheckFileExists()) return false; HesperisFile hes; hes.setReadComponent(HesperisFile::RCurve); hes.addCurve("curves", data); if(!hes.open(FileName)) return false; hes.close(); return true; }
bool BccWorld::readCurveDataFromFile() { if(BaseFile::InvalidFilename(BccGlobal::FileName)) return false; if(!BaseFile::FileExists(BccGlobal::FileName)) { BccGlobal::FileName = "unknown"; return false; } HesperisFile hes; hes.setReadComponent(HesperisFile::RCurve); hes.addCurve("curves", m_curves); if(!hes.open(BccGlobal::FileName)) return false; hes.close(); return true; }
bool BccWorld::readTriangleDataFromFile() { if(BaseFile::InvalidFilename(BccGlobal::FileName)) return false; if(!BaseFile::FileExists(BccGlobal::FileName)) { BccGlobal::FileName = "unknown"; return false; } HesperisFile hes; hes.setReadComponent(HesperisFile::RTri); if(!hes.open(BccGlobal::FileName)) return false; hes.close(); hes.extractTriangleMeshes(m_triangleMeshes); return true; }
bool SolverThread::readMeshFromFile() { if(BaseFile::InvalidFilename(FemGlobal::FileName)) return false; if(!BaseFile::FileExists(FemGlobal::FileName)) { FemGlobal::FileName = "unknown"; return false; } HesperisFile hes; hes.setReadComponent(HesperisFile::RTetra); hes.addTetrahedron("tetra", &m_meshData); if(!hes.open(FemGlobal::FileName)) return false; hes.close(); qDebug()<<" nt "<<m_meshData.m_numTetrahedrons; qDebug()<<" nv "<<m_meshData.m_numPoints; m_mesh->generateFromData(&m_meshData); return true; }
bool SahWorldInterface::readMeshFromFile(SahTetrahedronSystem * mesh) { if(BaseFile::InvalidFilename(SahGlobal::FileName)) return false; if(!BaseFile::FileExists(SahGlobal::FileName)) { SahGlobal::FileName = "unknown"; return false; } ATetrahedronMesh meshData; HesperisFile hes; hes.setReadComponent(HesperisFile::RTetra); hes.addTetrahedron("tetra_0", &meshData); if(!hes.open(SahGlobal::FileName)) return false; hes.close(); std::cout<<" nt "<<meshData.numTetrahedrons(); std::cout<<" nv "<<meshData.numPoints(); mesh->generateFromData(&meshData); return true; }
bool AdeniumInterface::readTriangleMeshFromFile(AdeniumWorld * world) { if(BaseFile::InvalidFilename(FileName)) return false; if(!BaseFile::FileExists(FileName)) { FileName = "unknown"; return false; } HesperisFile hes; hes.setReadComponent(HesperisFile::RTri); if(!hes.open(FileName)) return false; hes.close(); GeometryArray triangleMeshes; hes.extractTriangleMeshes(&triangleMeshes); if(triangleMeshes.numGeometries() < 1) return false; std::cout<<" n tri mesh "<<triangleMeshes.numGeometries(); world->addTriangleSystem(new BvhTriangleSystem((ATriangleMesh *)triangleMeshes.geometry(0))); return true; }