mrpt_localization_node.cpp
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00001 /***********************************************************************************
00002  * Revised BSD License                                                             *
00003  * Copyright (c) 2014, Markus Bader <markus.bader@tuwien.ac.at>                    *
00004  * All rights reserved.                                                            *
00005  *                                                                                 *
00006  * Redistribution and use in source and binary forms, with or without              *
00007  * modification, are permitted provided that the following conditions are met:     *
00008  *     * Redistributions of source code must retain the above copyright            *
00009  *       notice, this list of conditions and the following disclaimer.             *
00010  *     * Redistributions in binary form must reproduce the above copyright         *
00011  *       notice, this list of conditions and the following disclaimer in the       *
00012  *       documentation and/or other materials provided with the distribution.      *
00013  *     * Neither the name of the Vienna University of Technology nor the           *
00014  *       names of its contributors may be used to endorse or promote products      *
00015  *       derived from this software without specific prior written permission.     *
00016  *                                                                                 *
00017  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND *
00018  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED   *
00019  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE          *
00020  * DISCLAIMED. IN NO EVENT SHALL Markus Bader BE LIABLE FOR ANY                    *
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00026  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.                    *                       *
00027  ***********************************************************************************/
00028 
00029 #include "mrpt_localization_node.h"
00030 #include <boost/interprocess/sync/scoped_lock.hpp>
00031 #include <geometry_msgs/PoseArray.h>
00032 
00033 #include <mrpt_bridge/pose.h>
00034 #include <mrpt_bridge/laser_scan.h>
00035 #include <mrpt_bridge/time.h>
00036 #include <mrpt_bridge/map.h>
00037 
00038 
00039 
00040 int main(int argc, char **argv) {
00041 
00042     ros::init(argc, argv, "localization");
00043     ros::NodeHandle n;
00044     PFLocalizationNode my_node(n);
00045     my_node.init();
00046     my_node.loop();
00047     return 0;
00048 }
00049 
00050 PFLocalizationNode::~PFLocalizationNode() {
00051 }
00052 
00053 PFLocalizationNode::PFLocalizationNode(ros::NodeHandle &n) :
00054     PFLocalization(new PFLocalizationNode::Parameters(this)), n_(n), loop_count_(0) {
00055 }
00056 
00057 PFLocalizationNode::Parameters *PFLocalizationNode::param() {
00058     return (PFLocalizationNode::Parameters*) param_;
00059 }
00060 
00061 void PFLocalizationNode::init() {
00062     PFLocalization::init();
00063     subInitPose_ = n_.subscribe("initialpose", 1, &PFLocalizationNode::callbackInitialpose, this);
00064     
00065     subLaser0_ = n_.subscribe("scan",  1, &PFLocalizationNode::callbackLaser, this);
00066     subLaser1_ = n_.subscribe("scan1", 1, &PFLocalizationNode::callbackLaser, this);
00067     subLaser2_ = n_.subscribe("scan2", 1, &PFLocalizationNode::callbackLaser, this);
00068 
00069 
00070     if(!param()->mapFile.empty()) {
00071         mrpt_bridge::convert(*metric_map_.m_gridMaps[0], resp_.map);
00072         pub_map_ = n_.advertise<nav_msgs::OccupancyGrid>("map", 1, true);
00073         pub_metadata_= n_.advertise<nav_msgs::MapMetaData>("map_metadata", 1, true);
00074         service_map_ = n_.advertiseService("static_map", &PFLocalizationNode::mapCallback, this);
00075     }
00076     pub_Particles_ = n_.advertise<geometry_msgs::PoseArray>("particlecloud", 1, true);
00077 }
00078 
00079 void PFLocalizationNode::loop() {
00080     ROS_INFO("loop");
00081     for (ros::Rate rate(param()->rate); ros::ok(); loop_count_++) {
00082         param()->update(loop_count_);
00083         if(loop_count_%param()->map_update_skip == 0)   publishMap();
00084         if(loop_count_%param()->particlecloud_update_skip == 0)   publishParticles();
00085         publishTF();
00086         ros::spinOnce();
00087         rate.sleep();
00088     }
00089 }
00090 
00091 bool PFLocalizationNode::waitForTransform(mrpt::poses::CPose3D &des, const std::string& target_frame, const std::string& source_frame, const ros::Time& time, const ros::Duration& timeout, const ros::Duration& polling_sleep_duration){
00092     tf::StampedTransform transform;
00093     try
00094     {
00095         listenerTF_.waitForTransform(target_frame, source_frame,  time, polling_sleep_duration);
00096         listenerTF_.lookupTransform(target_frame, source_frame,  time, transform);
00097     }
00098     catch(tf::TransformException)
00099     {
00100         ROS_INFO("Failed to get transform target_frame (%s) to source_frame (%s)", target_frame.c_str(), source_frame.c_str());
00101         return false;
00102     }
00103     mrpt_bridge::convert(transform, des);
00104     return true;
00105 }
00106 
00107 
00108 void PFLocalizationNode::callbackLaser (const sensor_msgs::LaserScan &_msg) {
00109     //ROS_INFO("callbackLaser");
00110     mrpt::slam::CObservation2DRangeScanPtr laser = mrpt::slam::CObservation2DRangeScan::Create();
00111 
00112     //printf("callbackLaser %s\n", _msg.header.frame_id.c_str());
00113     if(laser_poses_.find(_msg.header.frame_id) == laser_poses_.end()) {
00114         updateLaserPose (_msg.header.frame_id);
00115     } else {
00116         //mrpt::poses::CPose3D pose = laser_poses_[_msg.header.frame_id];
00117         //ROS_INFO("LASER POSE %4.3f, %4.3f, %4.3f, %4.3f, %4.3f, %4.3f",  pose.x(), pose.y(), pose.z(), pose.roll(), pose.pitch(), pose.yaw());
00118         mrpt_bridge::convert(_msg, laser_poses_[_msg.header.frame_id],  *laser);
00119 
00120 
00121         std::string base_frame_id = tf::resolve(param()->tf_prefix, param()->base_frame_id);
00122         std::string odom_frame_id = tf::resolve(param()->tf_prefix, param()->odom_frame_id);
00123         mrpt::slam::CObservationOdometryPtr odometry;
00124         mrpt::poses::CPose3D poseOdom;
00125         if(this->waitForTransform(poseOdom, odom_frame_id, base_frame_id, _msg.header.stamp, ros::Duration(1))){
00126             odometry = mrpt::slam::CObservationOdometry::Create();
00127             odometry->sensorLabel = odom_frame_id;
00128             odometry->hasEncodersInfo = false;
00129             odometry->hasVelocities = false;
00130             odometry->odometry.x() = poseOdom.x();
00131             odometry->odometry.y() = poseOdom.y();
00132             odometry->odometry.phi() = poseOdom.yaw();
00133         }
00134         mrpt::slam::CSensoryFramePtr sf = mrpt::slam::CSensoryFrame::Create();
00135         mrpt::slam::CObservationPtr obs = mrpt::slam::CObservationPtr(laser);
00136         sf->insert(obs);
00137         observation(sf, odometry);
00138         if(param()->gui_mrpt) show3DDebug(sf);
00139     }
00140 }
00141 
00142 bool PFLocalizationNode::waitForMap() {
00143     clientMap_ = n_.serviceClient<nav_msgs::GetMap>("static_map");
00144     nav_msgs::GetMap srv;
00145     while (!clientMap_.call(srv) && ros::ok()) {
00146         ROS_INFO("waiting for map service!");
00147         sleep(1);
00148     }
00149     updateMap (srv.response.map);
00150     clientMap_.shutdown();
00151 }
00152 
00153 void PFLocalizationNode::updateLaserPose (std::string _frame_id) {
00154     mrpt::poses::CPose3D pose;
00155     tf::StampedTransform transform;
00156     try {
00157         std::string base_frame_id = tf::resolve(param()->tf_prefix, param()->base_frame_id);
00158         listenerTF_.lookupTransform(base_frame_id, _frame_id, ros::Time(0), transform);
00159         tf::Vector3 translation = transform.getOrigin();
00160         tf::Quaternion quat = transform.getRotation();
00161         pose.x() = translation.x();
00162         pose.y() = translation.y();
00163         pose.z() = translation.z();
00164         double roll, pitch, yaw;
00165         tf::Matrix3x3 Rsrc(quat);
00166         mrpt::math::CMatrixDouble33 Rdes;
00167         for(int c = 0; c < 3; c++)
00168             for(int r = 0; r < 3; r++)
00169                 Rdes(r,c) = Rsrc.getRow(r)[c];
00170         pose.setRotationMatrix(Rdes);
00171         laser_poses_[_frame_id] = pose;
00172     }
00173     catch (tf::TransformException ex) {
00174         ROS_ERROR("%s",ex.what());
00175         ros::Duration(1.0).sleep();
00176     }
00177 
00178 }
00179 
00180 void PFLocalizationNode::callbackInitialpose (const geometry_msgs::PoseWithCovarianceStamped& _msg) {
00181     log_info("callbackInitialpose");
00182     const geometry_msgs::PoseWithCovariance &pose = _msg.pose;
00183     mrpt_bridge::convert(pose, initialPose_);
00184     state_ = INIT;
00185 }
00186 
00187 void PFLocalizationNode::updateMap (const nav_msgs::OccupancyGrid &_msg) {
00188     ASSERT_( metric_map_.m_gridMaps.size()==1 );
00189     mrpt_bridge::convert(_msg, *metric_map_.m_gridMaps[0]);
00190 }
00191 
00192 bool PFLocalizationNode::mapCallback(nav_msgs::GetMap::Request  &req, nav_msgs::GetMap::Response &res )
00193 {
00194     ROS_INFO("mapCallback: service requested!\n");
00195     res = resp_;
00196     return true;
00197 }
00198 
00199 void PFLocalizationNode::publishMap () {
00200     resp_.map.header.stamp = ros::Time::now();
00201     resp_.map.header.frame_id =  tf::resolve(param()->tf_prefix, param()->global_frame_id);
00202     resp_.map.header.seq = loop_count_;
00203     if(pub_map_.getNumSubscribers() > 0) {
00204         pub_map_.publish(resp_.map );
00205     }
00206     if(pub_metadata_.getNumSubscribers() > 0) {
00207         pub_metadata_.publish( resp_.map.info );
00208     }
00209 }
00210 
00211 void PFLocalizationNode::publishParticles () {
00212     geometry_msgs::PoseArray poseArray;
00213     poseArray.header.frame_id = tf::resolve(param()->tf_prefix, param()->global_frame_id);
00214     poseArray.header.stamp = ros::Time::now();
00215     poseArray.header.seq = loop_count_;
00216     poseArray.poses.resize(pdf_.particlesCount());
00217     for(size_t i = 0; i < pdf_.particlesCount(); i++) {
00218         mrpt::poses::CPose2D p = pdf_.getParticlePose(i);
00219         mrpt_bridge::convert(p, poseArray.poses[i]);
00220     }
00221     mrpt::poses::CPose2D p;
00222     pub_Particles_.publish(poseArray);
00223 }
00224 
00225 void PFLocalizationNode::publishTF() {
00226     // Most of this code was copy and pase form ros::amcl
00227     // sorry it is realy ugly
00228     mrpt::poses::CPose2D robotPose;
00229     pdf_.getMean(robotPose);
00230     std::string base_frame_id = tf::resolve(param()->tf_prefix, param()->base_frame_id);
00231     std::string global_frame_id = tf::resolve(param()->tf_prefix, param()->global_frame_id);
00232     std::string odom_frame_id = tf::resolve(param()->tf_prefix, param()->odom_frame_id);
00233     tf::Stamped<tf::Pose> odom_to_map;
00234     tf::Transform tmp_tf;
00235     ros::Time stamp;
00236     mrpt_bridge::convert(timeLastUpdate_, stamp);
00237     mrpt_bridge::convert(robotPose, tmp_tf);
00238     try
00239     {
00240         tf::Stamped<tf::Pose> tmp_tf_stamped (tmp_tf.inverse(), stamp,  base_frame_id);
00241         //ROS_INFO("subtract global_frame (%s) form odom_frame (%s)", global_frame_id.c_str(), odom_frame_id.c_str());
00242         listenerTF_.transformPose(odom_frame_id, tmp_tf_stamped, odom_to_map);
00243     }
00244     catch(tf::TransformException)
00245     {
00246         ROS_INFO("Failed to subtract global_frame (%s) form odom_frame (%s)", global_frame_id.c_str(), odom_frame_id.c_str());
00247         return;
00248     }
00249 
00250     tf::Transform latest_tf_ = tf::Transform(tf::Quaternion(odom_to_map.getRotation()),
00251                                tf::Point(odom_to_map.getOrigin()));
00252 
00253     // We want to send a transform that is good up until a
00254     // tolerance time so that odom can be used
00255     ros::Duration transform_tolerance_(0.5);
00256     ros::Time transform_expiration = (stamp + transform_tolerance_);
00257     tf::StampedTransform tmp_tf_stamped(latest_tf_.inverse(),
00258                                         transform_expiration,
00259                                         global_frame_id, odom_frame_id);
00260     tf_broadcaster_.sendTransform(tmp_tf_stamped);
00261     //ROS_INFO("%s, %s\n", global_frame_id.c_str(), odom_frame.c_str());
00262 }


mrpt_localization
Author(s): Markus Bader
autogenerated on Mon Aug 11 2014 11:23:29