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00037 #include "ros/ros.h"
00038 #include "tf/transform_listener.h"
00039 #include "tf/message_filter.h"
00040 #include "sensor_msgs/PointCloud.h"
00041 #include "message_filters/subscriber.h"
00042
00043 #include <deque>
00044
00045
00046 #include "laser_assembler/AssembleScans.h"
00047
00048 #include "boost/thread.hpp"
00049 #include "math.h"
00050
00051 namespace laser_assembler
00052 {
00053
00071 template<class T>
00072 class BaseAssemblerSrv
00073 {
00074 public:
00075 BaseAssemblerSrv() ;
00076 ~BaseAssemblerSrv() ;
00077
00085 void start() ;
00086
00087
00092 virtual unsigned int GetPointsInScan(const T& scan) = 0 ;
00093
00102 virtual void ConvertToCloud(const std::string& fixed_frame_id, const T& scan_in, sensor_msgs::PointCloud& cloud_out) = 0 ;
00103
00104 protected:
00105 tf::TransformListener* tf_ ;
00106
00107 ros::NodeHandle private_ns_;
00108 ros::NodeHandle n_;
00109
00110 private:
00111
00112 ros::ServiceServer cloud_srv_server_;
00113 message_filters::Subscriber<T> scan_sub_;
00114 tf::MessageFilter<T>* tf_filter_;
00115 message_filters::Connection tf_filter_connection_;
00116
00118
00119 void scansCallback(const boost::shared_ptr<const T>& scan_ptr) ;
00120
00122 bool buildCloud(AssembleScans::Request& req, AssembleScans::Response& resp) ;
00123
00124
00126 std::deque<sensor_msgs::PointCloud> scan_hist_ ;
00127 boost::mutex scan_hist_mutex_ ;
00128
00130 unsigned int total_pts_ ;
00131
00133 unsigned int max_scans_ ;
00134
00136 std::string fixed_frame_ ;
00137
00139 double tf_tolerance_secs_ ;
00140
00142 unsigned int downsample_factor_ ;
00143
00144 } ;
00145
00146 template <class T>
00147 BaseAssemblerSrv<T>::BaseAssemblerSrv() : private_ns_("~")
00148 {
00149
00150 double tf_cache_time_secs ;
00151 private_ns_.param("tf_cache_time_secs", tf_cache_time_secs, 10.0) ;
00152 if (tf_cache_time_secs < 0)
00153 ROS_ERROR("Parameter tf_cache_time_secs<0 (%f)", tf_cache_time_secs) ;
00154
00155 tf_ = new tf::TransformListener(n_, ros::Duration(tf_cache_time_secs));
00156 ROS_INFO("TF Cache Time: %f Seconds", tf_cache_time_secs) ;
00157
00158
00159 const int default_max_scans = 400 ;
00160 int tmp_max_scans ;
00161 private_ns_.param("max_scans", tmp_max_scans, default_max_scans);
00162 if (tmp_max_scans < 0)
00163 {
00164 ROS_ERROR("Parameter max_scans<0 (%i)", tmp_max_scans) ;
00165 tmp_max_scans = default_max_scans ;
00166 }
00167 max_scans_ = tmp_max_scans ;
00168 ROS_INFO("Max Scans in History: %u", max_scans_) ;
00169 total_pts_ = 0 ;
00170
00171
00172 private_ns_.param("fixed_frame", fixed_frame_, std::string("ERROR_NO_NAME"));
00173 ROS_INFO("Fixed Frame: %s", fixed_frame_.c_str()) ;
00174 if (fixed_frame_ == "ERROR_NO_NAME")
00175 ROS_ERROR("Need to set parameter fixed_frame") ;
00176
00177
00178 int tmp_downsample_factor ;
00179 private_ns_.param("downsample_factor", tmp_downsample_factor, 1);
00180 if (tmp_downsample_factor < 1)
00181 {
00182 ROS_ERROR("Parameter downsample_factor<1: %i", tmp_downsample_factor) ;
00183 tmp_downsample_factor = 1 ;
00184 }
00185 downsample_factor_ = tmp_downsample_factor ;
00186 ROS_INFO("Downsample Factor: %u", downsample_factor_) ;
00187
00188
00189 cloud_srv_server_ = private_ns_.advertiseService("build_cloud", &BaseAssemblerSrv<T>::buildCloud, this);
00190
00191
00192 private_ns_.param("tf_tolerance_secs", tf_tolerance_secs_, 0.0);
00193 if (tf_tolerance_secs_ < 0)
00194 ROS_ERROR("Parameter tf_tolerance_secs<0 (%f)", tf_tolerance_secs_) ;
00195 ROS_INFO("tf Tolerance: %f seconds", tf_tolerance_secs_) ;
00196
00197
00198
00199 tf_filter_ = NULL;
00200
00201 }
00202
00203 template <class T>
00204 void BaseAssemblerSrv<T>::start()
00205 {
00206 ROS_INFO("Starting to listen on the input stream") ;
00207 if (tf_filter_)
00208 ROS_ERROR("assembler::start() was called twice!. This is bad, and could leak memory") ;
00209 else
00210 {
00211 scan_sub_.subscribe(n_, "scan_in", 10);
00212 tf_filter_ = new tf::MessageFilter<T>(scan_sub_, *tf_, fixed_frame_, 10);
00213 tf_filter_->setTolerance(ros::Duration(tf_tolerance_secs_));
00214 tf_filter_->registerCallback( boost::bind(&BaseAssemblerSrv<T>::scansCallback, this, _1) );
00215 }
00216 }
00217
00218 template <class T>
00219 BaseAssemblerSrv<T>::~BaseAssemblerSrv()
00220 {
00221 if (tf_filter_)
00222 delete tf_filter_;
00223
00224 delete tf_ ;
00225 }
00226
00227 template <class T>
00228 void BaseAssemblerSrv<T>::scansCallback(const boost::shared_ptr<const T>& scan_ptr)
00229 {
00230 const T scan = *scan_ptr ;
00231
00232 sensor_msgs::PointCloud cur_cloud ;
00233
00234
00235 try
00236 {
00237 ConvertToCloud(fixed_frame_, scan, cur_cloud) ;
00238 }
00239 catch(tf::TransformException& ex)
00240 {
00241 ROS_WARN("Transform Exception %s", ex.what()) ;
00242 return ;
00243 }
00244
00245
00246 scan_hist_mutex_.lock() ;
00247 if (scan_hist_.size() == max_scans_)
00248 {
00249 total_pts_ -= scan_hist_.front().points.size() ;
00250 scan_hist_.pop_front() ;
00251 }
00252 scan_hist_.push_back(cur_cloud) ;
00253 total_pts_ += cur_cloud.points.size() ;
00254
00255
00256
00257 scan_hist_mutex_.unlock() ;
00258 }
00259
00260 template <class T>
00261 bool BaseAssemblerSrv<T>::buildCloud(AssembleScans::Request& req, AssembleScans::Response& resp)
00262 {
00263
00264
00265 scan_hist_mutex_.lock() ;
00266
00267 unsigned int i = 0 ;
00268
00269
00270 while ( i < scan_hist_.size() &&
00271 scan_hist_[i].header.stamp < req.begin )
00272 {
00273 i++ ;
00274 }
00275 unsigned int start_index = i ;
00276
00277 unsigned int req_pts = 0 ;
00278
00279 while ( i < scan_hist_.size() &&
00280 scan_hist_[i].header.stamp < req.end )
00281 {
00282 req_pts += (scan_hist_[i].points.size()+downsample_factor_-1)/downsample_factor_ ;
00283 i += downsample_factor_ ;
00284 }
00285 unsigned int past_end_index = i ;
00286
00287 if (start_index == past_end_index)
00288 {
00289 resp.cloud.header.frame_id = fixed_frame_ ;
00290 resp.cloud.header.stamp = req.end ;
00291 resp.cloud.points.resize(0) ;
00292 resp.cloud.channels.resize(0) ;
00293 }
00294 else
00295 {
00296
00297
00298 resp.cloud.points.resize( req_pts ) ;
00299 const unsigned int num_channels = scan_hist_[start_index].channels.size() ;
00300 resp.cloud.channels.resize(num_channels) ;
00301 for (i = 0; i<num_channels; i++)
00302 {
00303 resp.cloud.channels[i].name = scan_hist_[start_index].channels[i].name ;
00304 resp.cloud.channels[i].values.resize(req_pts) ;
00305 }
00306
00307 resp.cloud.header.frame_id = fixed_frame_ ;
00308 unsigned int cloud_count = 0 ;
00309 for (i=start_index; i<past_end_index; i+=downsample_factor_)
00310 {
00311 for(unsigned int j=0; j<scan_hist_[i].points.size(); j+=downsample_factor_)
00312 {
00313 resp.cloud.points[cloud_count].x = scan_hist_[i].points[j].x ;
00314 resp.cloud.points[cloud_count].y = scan_hist_[i].points[j].y ;
00315 resp.cloud.points[cloud_count].z = scan_hist_[i].points[j].z ;
00316 for (unsigned int k=0; k<num_channels; k++)
00317 resp.cloud.channels[k].values[cloud_count] = scan_hist_[i].channels[k].values[j] ;
00318
00319 cloud_count++ ;
00320 }
00321 resp.cloud.header.stamp = scan_hist_[i].header.stamp;
00322 }
00323 }
00324 scan_hist_mutex_.unlock() ;
00325
00326 ROS_DEBUG("Point Cloud Results: Aggregated from index %u->%u. BufferSize: %lu. Points in cloud: %lu", start_index, past_end_index, scan_hist_.size(), resp.cloud.points.size()) ;
00327 return true ;
00328 }
00329
00330 }