void CleaverMeshDumper::simulateCleaverMesh(){ CellFieldCleaverSimulator cfcs; cfcs.setFieldDim(fieldDim); cfcs.setCellFieldPtr(cellFieldG); cfcs.setIncludeCellTypesSet(cellTypesSet); //bool verbose=true; //string outputFileName="cellfieldmesh"; Cleaver::InverseField inverseField = Cleaver::InverseField(&cfcs); std::vector<Cleaver::ScalarField*> fields; fields.push_back(&cfcs); fields.push_back(&inverseField); Cleaver::Volume volume(fields); Cleaver::TetMesh *mesh = Cleaver::createMeshFromVolume(volume, verbose); //mesh->writeNodeEle(outputFileName, verbose); cerr<<"outputFileName="<<outputFileName<<endl; cerr<<"verbose="<<verbose<<endl; if(meshOutputFormat == "tetgen") mesh->writeNodeEle(outputFileName, verbose); else if(meshOutputFormat == "scirun") mesh->writePtsEle(outputFileName, verbose); else if(meshOutputFormat == "matlab") mesh->writeMatlab(outputFileName, verbose); //---------------------- // Write Surface Files //---------------------- if (outputMeshSurface){ mesh->constructFaces(); mesh->writePly(outputFileName, verbose); } delete mesh; }
int main(int argc, char *argv[]) { //------------------------------- // Parse Inputs //------------------------------- parse_input(argc, argv); //------------------------------- // Load Data & Create Lattice //------------------------------- std::vector<Cleaver::ScalarField*> fields = loadNRRDFiles(inputs, verbose); if(fields.empty()){ std::cerr << "Failed to load image data. Terminating." << std::endl; return 0; } else if(fields.size() == 1) fields.push_back(new Cleaver::InverseField(fields[0])); Cleaver::AbstractVolume *volume = new Cleaver::Volume(fields); if(absolute_resolution) ((Cleaver::Volume*)volume)->setSize(rx,ry,rz); if(scaled_resolution) ((Cleaver::Volume*)volume)->setSize(sx*volume->size().x, sy*volume->size().y, sz*volume->size().z); if(padding) volume = new Cleaver::PaddedVolume(volume); std::cout << "Creating Mesh with Volume Size " << volume->size().toString() << std::endl; //-------------------------------- // Create Mesher & TetMesh //-------------------------------- Cleaver::TetMesh *mesh = Cleaver::createMeshFromVolume(volume, verbose); //------------------ // Compute Angles //------------------ mesh->computeAngles(); if(verbose){ std::cout.precision(12); std::cout << "Worst Angles:" << std::endl; std::cout << "min: " << mesh->min_angle << std::endl; std::cout << "max: " << mesh->max_angle << std::endl; } //---------------------- // Write Info File //---------------------- mesh->writeInfo(output, verbose); //---------------------- // Write Tet Mesh Files //---------------------- if(format == tetgen) mesh->writeNodeEle(output, verbose); else if(format == scirun) mesh->writePtsEle(output, verbose); else if(format == matlab) mesh->writeMatlab(output, verbose); //---------------------- // Write Surface Files //---------------------- mesh->constructFaces(); mesh->writePly(output, verbose); //mesh->writeMultiplePly(inputs, output, verbose); //----------- // Cleanup //----------- if(verbose) std::cout << "Cleaning up." << std::endl; delete mesh; for(unsigned int f=0; f < fields.size(); f++) delete fields[f]; delete volume; //----------- // Done //----------- if(verbose) std::cout << "Done." << std::endl; return 0; }
int main(int argc, char *argv[]) { cerr<<"THIS IS VOLUMEMESH"<<endl; int dim_x=30; int dim_y=30; int dim_z=30; float v_x=1.0; float v_y=1.0; float v_z=1.0; bool verbose=true; string format="tetgen"; string outputFileName="meshOutput"; //vector<float> outsideVec(dim_x*dim_y*dim_x,0); vector<float> insideVec(dim_x*dim_y*dim_x,0.0); int idx=0; //filling volumetric mateiral definition - a sphere centered in the middle of the lattice for (int x = 0 ; x < dim_x ; ++x ){ for (int y = 0 ; y < dim_y ; ++y ){ for (int z = 0 ; z < dim_z ; ++z ){ if(x < 2 || y < 2 || z < 2 || x > (dim_x - 2) || y > (dim_y - 2) || z > (dim_z - 2)) { insideVec[idx]=1.0; ++idx; continue; } if ((x-dim_x/2)*(x-dim_x/2)+(y-dim_y/2)*(y-dim_y/2)+(z-dim_z/2)<0.4*dim_x){ insideVec[idx]=1.0; }else{ insideVec[idx]=0.0; //insideVec[idx]=1; //outsideVec[idx]=0; } std::cout << insideVec[idx] << std::endl; ++idx; } } } Cleaver::FloatField insideField=Cleaver::FloatField(dim_x,dim_y,dim_z,&insideVec[0]); //Cleaver::FloatField outsideField=Cleaver::FloatField(dim_x,dim_y,dim_z,&outsideVec[0]); Cleaver::InverseField inverseField=Cleaver::InverseField(&insideField); std::vector<Cleaver::ScalarField*> fields; fields.push_back(&insideField); fields.push_back(&inverseField); Cleaver::Volume volume(fields); Cleaver::TetMesh *mesh = Cleaver::createMeshFromVolume(volume, verbose); //------------------ // Compute Angles //------------------ mesh->computeAngles(); if(verbose){ std::cout.precision(12); std::cout << "Worst Angles:" << std::endl; std::cout << "min: " << mesh->min_angle << std::endl; std::cout << "max: " << mesh->max_angle << std::endl; } //---------------------- // Write Info File //---------------------- mesh->writeInfo(outputFileName, verbose); //---------------------- // Write Tet Mesh Files //---------------------- if(format == tetgen) mesh->writeNodeEle(outputFileName, verbose); else if(format == scirun) mesh->writePtsEle(outputFileName, verbose); else if(format == matlab) mesh->writeMatlab(outputFileName, verbose); //---------------------- // Write Surface Files //---------------------- mesh->constructFaces(); mesh->writePly(outputFileName, verbose); }