コード例 #1
0
ファイル: zmesh.cpp プロジェクト: sunyzm/ZGeometry
void compressMesh(const std::vector<std::string>& mesh_filenames) {
    string mesh_file = mesh_filenames.front();
    CMesh mesh;
    mesh.load(mesh_file);
    string mesh_name = mesh.getMeshName();    
    ofstream ofs(mesh_name + ".compress.log");

    // what to do:
    // 1. partition mesh with each mesh of size 300, 500, 1000, 1500, 2000
    // 2. For each submesh, do eigendecomposition
    // 3. Compute SGW dictionary
    // 4. S-OMP approximation
    // 5. Output total approximation error

    // 
    // what to output:
    // 1. eigendecomposition time
    // 2. S-OMP time
    // 3. Approximation error

    vector<int> max_sizes{ 300, 600, 1000, 1500, 2000 };
    for (int max_size : max_sizes) {
        int nPart = std::round(mesh.vertCount() / max_size);
        vector<int> part_idx = MetisMeshPartition(&mesh, nPart);
        // TODO

    }

}
コード例 #2
0
ファイル: zmesh.cpp プロジェクト: sunyzm/ZGeometry
void computeMeshesFeaturePoints(const std::vector<std::string>& mesh_filenames, std::string eigen_path, std::string output_path)
{
    ZGeom::MatlabEngineWrapper eng;
    eng.open();
    auto pwd = initial_path<path>();
    eng.eval("cd " + pwd.string());
    eng.eval("mkdir " + output_path);
    eng.eval("cd " + output_path);
    cout << "# Total meshes: " << mesh_filenames.size() << "\n" << endl;

    CStopWatch timer;
    timer.startTimer();

    int count = 0;
    for (string mesh_file : mesh_filenames)
    {
        count++;
        cout << count << ": " << mesh_file << endl;
        try {
            if (!fileExist(mesh_file)) {
                throw runtime_error("File not exist!");
            }
            CMesh mesh;
            mesh.load(mesh_file);

            string mesh_name = mesh.getMeshName();
            string eigen_file_path = eigen_path + "/" + mesh_name + ".eigen.mat";

            EigenSystem es;
            es.loadFromMat(&eng, eigen_file_path);

            double t_min = 4 * std::log(10.0) / es.getAllEigVals().back(), t_max = 4 * std::log(10.0) / es.getEigVal(1);
            int nScales = 4;
            const double tMultiplier = std::pow(t_max / t_min, 1.0 / double(nScales - 1));
            std::vector<double> hks_scales(nScales);
            for (int s = 0; s < nScales; ++s) {
                hks_scales[s] = t_min * std::pow(tMultiplier, s);
            }

            set<int> all_features;
            for (int s = 0; s < nScales; ++s) {
                vector<double> values = calHeatKernelSignature(es, hks_scales[s]);
                vector<int> features = extractMeshExtrema(mesh, values, 2);
                for (int fi : features) all_features.insert(fi);
            }

            string out_file_path = output_path + "/" + mesh_name + ".feature";
            ofstream ofs(output_path.c_str());

        }
        catch (runtime_error* e){
            cerr << "Fail to process " + mesh_file << ": " << e->what() << endl;
        }
    } 

    cout << "\n";
    timer.stopTimer("Total time: ");
}
コード例 #3
0
ファイル: zmesh.cpp プロジェクト: sunyzm/ZGeometry
void computeMeshesSpectrum(const std::vector<std::string>& mesh_filenames, int eigen_num, std::string output_path)
{
    ZGeom::MatlabEngineWrapper eng;
    eng.open();
    auto pwd = initial_path<path>();
    eng.eval("cd " + pwd.string());
    eng.eval("mkdir " + output_path);
    eng.eval("cd " + output_path);
    cout << "# Total meshes: " << mesh_filenames.size() << "\n" << endl;

    CStopWatch timer;
    timer.startTimer();

    int count = 0;
    for (string mesh_file : mesh_filenames)
    {
        count++;
        cout << count << ": " << mesh_file << endl;
        try {
            if (!fileExist(mesh_file)) {
                throw runtime_error("File not exist!");
            }
            CMesh mesh;
            mesh.load(mesh_file);
            Laplacian cot_form_lap;
            cot_form_lap.constructCotFormula(&mesh);
            EigenSystem es;
            cot_form_lap.decompose(eigen_num, &eng, es, true);

            string mesh_name = mesh.getMeshName();
            string eigen_file_path = mesh_name + ".eigen.mat";            
            es.saveToMat(&eng, eigen_file_path);
            cout << eigen_file_path << " saved!" << endl;
        }
        catch (runtime_error* e){
            cerr << "Fail to process " + mesh_file << ": " << e->what() << endl;
        }
        catch (exception* e) {
            cerr << "Unknown error in processing " + mesh_file << endl;
        }
    }

    cout << "\n";
    timer.stopTimer("Total time: ");
}
コード例 #4
0
ファイル: zmesh_partition.cpp プロジェクト: sunyzm/ZGeometry
//////////////////////////////////////////////////////////////////////////
// usage: zmesh_partition [mesh-filename] -n/-m [partitionCount/maxPatchSize] [output-path]
//
int main(int argc, char *argv[])
{
	if (argc == 2 && argv[1] == std::string("--help")) {
		std::cout << "usage: zmesh_partition [mesh-filename] -n/-m [partitionCount/maxPatchSize] [output-path]" << '\n';
		exit(0);
	}

	if (argc < 4) {
		std::cerr << "Lack " << 4 -argc << " arguments!" << std::endl;
		exit(-1);
	}
	else if (argc > 5) {
		std::cerr << "Excessive arguments ignored!" << std::endl;
	}

	/// preparation of option and parameters
	std::string meshFilename = argv[1];
	std::string segOption = argv[2];
	std::string segPara = argv[3];
	std::string outputPath = "./";
	if (argc == 5) {
		outputPath = argv[4];
		if (outputPath.back() != '/') outputPath.push_back('/');	// add trailing slash if missing
	}

	if (!fileExist(meshFilename)) {
		std::cerr << "Mesh file not existent!" << std::endl;
		std::exit(-1);
	}
	bool segNumSpecified = false;
	if (segOption == "-n") segNumSpecified = true;
	else if (segOption == "-m") segNumSpecified = false;
	else {
		std::cerr << "Unrecognized option '" << segOption << " '" << std::endl;
		std::exit(-1);
	}
	int nPara = std::stoi(segPara);

	/// load mesh
	CMesh oriMesh;
	oriMesh.load(meshFilename);
    ZGeom::gatherMeshStatistics(oriMesh);

	std::string meshName = oriMesh.getMeshName();
	int totalVertCount = oriMesh.vertCount();
	int nPart;
	if (segNumSpecified) nPart = nPara;
	else nPart = totalVertCount / nPara + 1;
	if (nPart <= 0) {
		std::cerr << "Number of segmentations must be greater than 0" << std::endl;
		std::exit(-1);
	}

	std::vector<CMesh*> vSubMeshes;
	std::vector<std::vector<int>*> vMappedIdx;

	for (int i = 0; i < nPart; ++i) {
		vSubMeshes.push_back(new CMesh());
		vMappedIdx.push_back(new std::vector<int>());
	}
	std::vector<int> vPartIdx = MetisMeshPartition(&oriMesh, nPart);
	for (int vIdx = 0; vIdx < totalVertCount; ++vIdx) {
		vMappedIdx[vPartIdx[vIdx]]->push_back(vIdx);
	}

	double paritionTime = time_call_sec([&]() {
		oriMesh.partitionToSubMeshes(vMappedIdx, vSubMeshes);
	});
	std::cout << "Partition finished! Time consumed: " << paritionTime << "s\n";

	char numBuf[10];
	for (int i = 0; i < nPart; ++i) {
		_itoa_s(i + 1, numBuf, 10);
		std::string subMeshName = meshName + ".sub" + std::string(numBuf);
		vSubMeshes[i]->setMeshName(subMeshName);
	}

	std::cout << "- number of partitions: " << nPart << '\n';
	std::cout << "- sub-mesh sizes: ";
	for (int i = 0; i < nPart; ++i) {
		std::cout << vSubMeshes[i]->getMeshName() << ": " << vSubMeshes[i]->vertCount() << " | ";
		vSubMeshes[i]->save(outputPath + vSubMeshes[i]->getMeshName() + ".obj");
	}
	std::cout << '\n';

	for (auto p : vSubMeshes) delete p;
	for (auto p : vMappedIdx) delete p;

#ifdef _DEBUG
	std::system("PAUSE");
#endif
	exit(0);
}