bool PointCloudFunctions::saveVmtAsCloud(const cv::SparseMat &vmt, std::string fileName) { if (vmt.nzcount() <= 0) { std::cout << "NO POINTS FOR " << fileName << ", save aborted." << std::endl; return false; } //TRANSFORM VMT INTO Point Clout PointCloud<PointXYZI> cloud; cloud.resize(vmt.nzcount()); int i = 0; int rows = vmt.size()[1]; int maxZ = vmt.size()[2]; for (cv::SparseMatConstIterator it = vmt.begin(); it != vmt.end(); ++it) { const cv::SparseMat::Node* n = it.node(); uchar val = it.value<uchar>(); cloud.points[i].x = n->idx[0]; cloud.points[i].y = rows - n->idx[1]; cloud.points[i].z = maxZ - n->idx[2]; cloud.points[i].intensity = static_cast<float>(val); i++; } if (pcl::io::savePCDFileASCII (fileName, cloud) >= 0) //FIXME: what is the return value? it's not mentioned in http://docs.pointclouds.org/1.6.0/group__io.html#ga5e406a5854fa8ad026cad85158fef266 return true; else return false; }
MxArray::MxArray(const cv::SparseMat& mat) { if (mat.dims() != 2) mexErrMsgIdAndTxt("mexopencv:error", "cv::Mat is not 2D"); if (mat.type() != CV_32FC1) mexErrMsgIdAndTxt("mexopencv:error", "cv::Mat is not float"); // Create a sparse array. int m = mat.size(0), n = mat.size(1), nnz = mat.nzcount(); p_ = mxCreateSparse(m, n, nnz, mxREAL); if (!p_) mexErrMsgIdAndTxt("mexopencv:error", "Allocation error"); mwIndex *ir = mxGetIr(p_); mwIndex *jc = mxGetJc(p_); if (ir == NULL || jc == NULL) mexErrMsgIdAndTxt("mexopencv:error", "Unknown error"); // Sort nodes before we put elems into mxArray. std::vector<const cv::SparseMat::Node*> nodes; nodes.reserve(nnz); for (cv::SparseMatConstIterator it = mat.begin(); it != mat.end(); ++it) nodes.push_back(it.node()); std::sort(nodes.begin(), nodes.end(), CompareSparseMatNode()); // Copy data. double *pr = mxGetPr(p_); int i = 0; jc[0] = 0; for (std::vector<const cv::SparseMat::Node*>::const_iterator it = nodes.begin(); it != nodes.end(); ++it) { mwIndex row = (*it)->idx[0], col = (*it)->idx[1]; ir[i] = row; jc[col+1] = i+1; pr[i] = static_cast<double>(mat.value<float>(*it)); ++i; } }
PointCloud<PointXYZI>::Ptr PointCloudFunctions::convertToPointCloud(const cv::SparseMat &vmt) { PointCloud<PointXYZI>::Ptr cloud(new PointCloud<PointXYZI> ()); cloud->resize(vmt.nzcount()); int i = 0; int rows = vmt.size()[1]; int maxZ = vmt.size()[2]; for (cv::SparseMatConstIterator it=vmt.begin(); it != vmt.end(); ++it) { const cv::SparseMat::Node* n = it.node(); uchar val = it.value<uchar>(); cloud->points[i].x = n->idx[0]; cloud->points[i].y = rows - n->idx[1]; cloud->points[i].z = maxZ - n->idx[2]; cloud->points[i].intensity = static_cast<float>(val); i++; } return cloud; }