#include #include #include #include typedef pcl::PointXYZRGB Point; typedef pcl::PointCloud PointCloud; class Callback { public: void operator()(const PointCloud::ConstPtr& msg) { PointCloud::Ptr pcl(new PointCloud()); copy_info(msg, pcl); BOOST_FOREACH (const Point& pt, msg->points) { if (pt.z < zmax) pcl->push_back(pt); } pcl->height = 1; pcl->width = pcl->points.size(); publisher.publish(pcl); } Callback(ros::Publisher& pub, float z) : publisher(pub), zmax(z) {} private: ros::Publisher publisher; float zmax; inline void copy_info(const PointCloud::ConstPtr& a, PointCloud::Ptr b) { b->header = a->header; b->sensor_origin_ = a->sensor_origin_; b->sensor_orientation_ = a->sensor_orientation_; b->is_dense = a->is_dense; } }; int main(int argc, char** argv) { ros::init(argc, argv, "filtre"); ros::NodeHandle node("filtre"); // récupération des paramètres double zmax(0); if (node.getParam("zmax", zmax)) { ROS_INFO("zmax : %f" , zmax); } else { node.setParam("zmax", 50.0); node.getParam("zmax", zmax); ROS_INFO("zmax : %f (default value)", zmax); } // initialisatio ros::Publisher publisher = node.advertise("output", 1); Callback callback(publisher, (float) zmax); ros::Subscriber subscriber = node.subscribe("input", 1, callback); // démarrage ROS_INFO("node started"); ros::spin(); ROS_INFO("exit"); return 0; }