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00006 #include <ros/ros.h>
00007 #include <ros/names.h>
00008
00009 #include <sensor_msgs/Image.h>
00010 #include <sensor_msgs/CameraInfo.h>
00011 #include <sensor_msgs/PointCloud.h>
00012 #include <sensor_msgs/PointCloud2.h>
00013 #include <sensor_msgs/point_cloud_conversion.h>
00014
00015 #include <image_transport/image_transport.h>
00016 #include <image_transport/subscriber_filter.h>
00017 #include <message_filters/subscriber.h>
00018 #include <message_filters/time_synchronizer.h>
00019
00020 #include <tf/transform_listener.h>
00021
00022 #include <opencv/cv.h>
00023 #include <cv_bridge/CvBridge.h>
00024
00025 #include "SRCalibratedLib.h"
00026 #include "CRLib.h"
00027
00028
00029 #include <dynamic_reconfigure/server.h>
00030 #include "cr_capture/CRCaptureConfig.h"
00031
00032 #include "cr_capture/RawCloudData.h"
00033 #include "cr_capture/PullRawData.h"
00034 #include "cr_capture/PixelIndices.h"
00035
00036 class CRCaptureNode {
00037 private:
00038 ros::NodeHandle nh_;
00039 image_transport::ImageTransport it_;
00040 image_transport::CameraSubscriber camera_sub_l_, camera_sub_r_, camera_sub_depth_;
00041 ros::Publisher cloud_pub_;
00042 ros::Publisher cloud2_pub_;
00043 ros::Publisher index_pub_;
00044 ros::ServiceServer rawdata_service_;
00045
00046 std::string left_ns_, right_ns_, range_ns_;
00047
00048
00049 message_filters::Subscriber<sensor_msgs::Image> image_conf_sub_;
00050 message_filters::Subscriber<sensor_msgs::Image> image_intent_sub_;
00051 message_filters::Subscriber<sensor_msgs::Image> image_depth_sub_;
00052 message_filters::Subscriber<sensor_msgs::CameraInfo> info_sub_;
00053 message_filters::TimeSynchronizer<sensor_msgs::Image, sensor_msgs::Image,
00054 sensor_msgs::Image, sensor_msgs::CameraInfo> sync_;
00055
00056
00057 bool calc_pixelpos;
00058 bool use_images;
00059 bool pull_raw_data;
00060
00061
00062 SRCalibratedLib sr_lib_;
00063 CRLib cr_lib_;
00064
00065
00066 typedef dynamic_reconfigure::Server<cr_capture::CRCaptureConfig> ReconfigureServer;
00067 ReconfigureServer reconfigure_server_;
00068
00069
00070 cr_capture::RawCloudData raw_cloud_;
00071
00072 public:
00073 CRCaptureNode () : nh_("~"), it_(nh_), sync_(5)
00074 {
00075
00076 ReconfigureServer::CallbackType f = boost::bind(&CRCaptureNode::config_cb, this, _1, _2);
00077 reconfigure_server_.setCallback(f);
00078
00079
00080 nh_.param("max_range", sr_lib_.max_range, 5.0);
00081 ROS_INFO("max_range : %f", sr_lib_.max_range);
00082
00083 nh_.param("depth_scale", sr_lib_.depth_scale, 1.0);
00084 ROS_INFO("depth_scale : %f", sr_lib_.depth_scale);
00085
00086
00087 double trans_pos[3];
00088 double trans_quat[4];
00089 trans_pos[0] = trans_pos[1] = trans_pos[2] = 0;
00090 if (nh_.hasParam("translation")) {
00091 XmlRpc::XmlRpcValue param_val;
00092 nh_.getParam("translation", param_val);
00093 if (param_val.getType() == XmlRpc::XmlRpcValue::TypeArray && param_val.size() == 3) {
00094 trans_pos[0] = param_val[0];
00095 trans_pos[1] = param_val[1];
00096 trans_pos[2] = param_val[2];
00097 }
00098 }
00099 ROS_INFO("translation : [%f, %f, %f]", trans_pos[0], trans_pos[1], trans_pos[2]);
00100 trans_quat[0] = trans_quat[1] = trans_quat[2] = 0;
00101 trans_quat[3] = 1;
00102 if (nh_.hasParam("rotation")) {
00103 XmlRpc::XmlRpcValue param_val;
00104 nh_.getParam("rotation", param_val);
00105 if (param_val.getType() == XmlRpc::XmlRpcValue::TypeArray && param_val.size() == 4) {
00106 trans_quat[0] = param_val[0];
00107 trans_quat[1] = param_val[1];
00108 trans_quat[2] = param_val[2];
00109 trans_quat[3] = param_val[3];
00110 }
00111 }
00112 ROS_INFO("rotation : [%f, %f, %f, %f]", trans_quat[0], trans_quat[1],
00113 trans_quat[2], trans_quat[3]);
00114 btQuaternion btq(trans_quat[0], trans_quat[1], trans_quat[2], trans_quat[3]);
00115 btVector3 btp(trans_pos[0], trans_pos[1], trans_pos[2]);
00116 cr_lib_.cam_trans.setOrigin(btp);
00117 cr_lib_.cam_trans.setRotation(btq);
00118
00119 nh_.param("use_filter", sr_lib_.use_filter, true);
00120 ROS_INFO("use_filter : %d", sr_lib_.use_filter);
00121 sr_lib_.edge1 = 40.0; sr_lib_.edge2 = 80; sr_lib_.dilate_times = 1;
00122
00123 nh_.param("use_smooth", sr_lib_.use_smooth, false);
00124 ROS_INFO("use_smooth : %d", sr_lib_.use_smooth);
00125 if (sr_lib_.use_smooth) {
00126 nh_.param("smooth_size", sr_lib_.smooth_size, 6);
00127 ROS_INFO("smooth_size : %d", sr_lib_.smooth_size);
00128 nh_.param("smooth_depth", sr_lib_.smooth_depth, 0.04);
00129 ROS_INFO("smooth_depth : %f", sr_lib_.smooth_depth);
00130 sr_lib_.smooth_depth = (sr_lib_.smooth_depth / sr_lib_.max_range) * 0xFFFF;
00131 nh_.param("smooth_space", sr_lib_.smooth_space, 6.0);
00132 ROS_INFO("smooth_space : %f", sr_lib_.smooth_space);
00133 }
00134
00135 nh_.param("clear_uncolored_points", cr_lib_.clear_uncolored_points, true);
00136 ROS_INFO("clear_uncolored_points : %d", cr_lib_.clear_uncolored_points);
00137
00138 nh_.param("short_range", sr_lib_.short_range, false);
00139 ROS_INFO("short_range : %d", sr_lib_.short_range);
00140
00141
00142
00143
00144 cloud_pub_ = nh_.advertise<sensor_msgs::PointCloud> ("color_pcloud", 1);
00145 cloud2_pub_ = nh_.advertise<sensor_msgs::PointCloud2> ("color_pcloud2", 1);
00146
00147 left_ns_ = nh_.resolveName("left");
00148 right_ns_ = nh_.resolveName("right");
00149 range_ns_ = nh_.resolveName("range");
00150
00151 camera_sub_l_ = it_.subscribeCamera(left_ns_ + "/image", 1, &CRCaptureNode::cameraleftCB, this);
00152 camera_sub_r_ = it_.subscribeCamera(right_ns_ + "/image", 1, &CRCaptureNode::camerarightCB, this);
00153
00154
00155 nh_.param("use_images", use_images, false);
00156 ROS_INFO("use_images : %d", use_images);
00157 if(use_images) {
00158
00159 nh_.param("intensity_threshold", sr_lib_.intensity_threshold, -1);
00160 if(sr_lib_.intensity_threshold >= 0) {
00161 ROS_INFO("intensity_threshold : %d", sr_lib_.intensity_threshold);
00162 }
00163 nh_.param("confidence_threshold", sr_lib_.confidence_threshold, -1);
00164 if(sr_lib_.confidence_threshold >= 0) {
00165 ROS_INFO("confidence_threshold : %d", sr_lib_.confidence_threshold);
00166 }
00167
00168 image_conf_sub_.subscribe(nh_, range_ns_ + "/confidence/image_raw", 1);
00169 image_intent_sub_.subscribe(nh_, range_ns_ + "/intensity/image_raw", 1);
00170 image_depth_sub_.subscribe(nh_, range_ns_ + "/distance/image_raw16", 1);
00171 info_sub_.subscribe(nh_, range_ns_ + "/camera_info", 1);
00172
00173 sync_.connectInput(image_conf_sub_, image_intent_sub_, image_depth_sub_, info_sub_);
00174 sync_.registerCallback(boost::bind(&CRCaptureNode::cameraallCB, this, _1, _2, _3, _4));
00175 } else {
00176
00177 camera_sub_depth_ = it_.subscribeCamera(range_ns_ + "/image", 1, &CRCaptureNode::camerarangeCB, this);
00178 }
00179
00180
00181 nh_.param("pull_raw_data", pull_raw_data, false);
00182 ROS_INFO("pull_raw_data : %d", pull_raw_data);
00183 if(pull_raw_data) {
00184 rawdata_service_ = nh_.advertiseService("pull_raw_data", &CRCaptureNode::pullData, this);
00185 }
00186
00187 nh_.param("calc_pixel_color", calc_pixelpos, false);
00188 ROS_INFO("calc_pixel_color : %d", calc_pixelpos);
00189 if(calc_pixelpos) {
00190 index_pub_ = nh_.advertise<cr_capture::PixelIndices>("pixel_indices", 1);
00191 }
00192 }
00193
00194 bool
00195 pullData (cr_capture::PullRawDataRequest &req,
00196 cr_capture::PullRawDataResponse &res)
00197 {
00198 res.data = raw_cloud_;
00199 return true;
00200 }
00201
00202 void
00203 config_cb (cr_capture::CRCaptureConfig &config, uint32_t level)
00204 {
00205 cr_lib_.clear_uncolored_points = config.clear_uncolored;
00206 sr_lib_.short_range = config.short_range;
00207
00208 sr_lib_.use_filter = config.use_filter;
00209 sr_lib_.edge1 = config.canny_parameter1;
00210 sr_lib_.edge2 = config.canny_parameter2;
00211 sr_lib_.dilate_times = config.dilate_times;
00212
00213 sr_lib_.use_smooth = config.use_smooth;
00214 sr_lib_.smooth_size = config.smooth_size;
00215 sr_lib_.smooth_space = config.smooth_space;
00216 sr_lib_.smooth_depth = config.smooth_depth;
00217 sr_lib_.smooth_depth = (sr_lib_.smooth_depth / sr_lib_.max_range) * 0xFFFF;
00218
00219 sr_lib_.intensity_threshold = config.intensity_threshold;
00220 sr_lib_.confidence_threshold = config.confidence_threshold;
00221 }
00222
00223 void cameraleftCB(const sensor_msgs::ImageConstPtr &img,
00224 const sensor_msgs::CameraInfoConstPtr &info)
00225 {
00226
00227 cr_lib_.setLeftImg(img, info);
00228
00229 if(pull_raw_data)
00230 {
00231 raw_cloud_.left_image = *img;
00232 raw_cloud_.left_info = *info;
00233 }
00234 }
00235
00236 void
00237 camerarightCB(const sensor_msgs::ImageConstPtr &img,
00238 const sensor_msgs::CameraInfoConstPtr &info)
00239 {
00240
00241 cr_lib_.setRightImg(img, info);
00242
00243 if(pull_raw_data)
00244 {
00245 raw_cloud_.right_image = *img;
00246 raw_cloud_.right_info = *info;
00247 }
00248 }
00249
00250 void
00251 cameraallCB (const sensor_msgs::ImageConstPtr &img_c,
00252 const sensor_msgs::ImageConstPtr &img_i,
00253 const sensor_msgs::ImageConstPtr &img_d,
00254 const sensor_msgs::CameraInfoConstPtr &info)
00255 {
00256 sr_lib_.setRengeImg(img_c, img_i, img_d, info);
00257
00258 if(pull_raw_data) {
00259 raw_cloud_.intensity = *img_i;
00260 raw_cloud_.confidence = *img_c;
00261 raw_cloud_.depth16 = *img_d;
00262 raw_cloud_.range_info = *info;
00263
00264 raw_cloud_.header = info->header;
00265 }
00266
00267 publishCloud( info->header );
00268 }
00269
00270 void
00271 camerarangeCB (const sensor_msgs::ImageConstPtr &img,
00272 const sensor_msgs::CameraInfoConstPtr &info)
00273 {
00274 sr_lib_.setRengeImg(img, img, img, info);
00275
00276 if(pull_raw_data) {
00277 raw_cloud_.depth16 = *img;
00278 raw_cloud_.range_info = *info;
00279
00280 raw_cloud_.header = info->header;
00281 }
00282
00283 publishCloud( info->header );
00284 }
00285
00286 void
00287 publishCloud (const std_msgs::Header &header)
00288 {
00289 sensor_msgs::PointCloud pts;
00290
00291 sr_lib_.calc3DPoints(pts);
00292
00293 if ( calc_pixelpos ) {
00294 cr_capture::PixelIndices pidx;
00295 cr_lib_.calcColor(pts, sr_lib_.width(), sr_lib_.height(), &pidx);
00296 index_pub_.publish(pidx);
00297 if (pull_raw_data)
00298 raw_cloud_.pixel_indices = pidx;
00299 } else {
00300 cr_lib_.calcColor(pts, sr_lib_.width(), sr_lib_.height());
00301 }
00302
00303
00304 if (cloud_pub_.getNumSubscribers() > 0)
00305 {
00306 pts.header = header;
00307 sensor_msgs::PointCloudPtr ptr = boost::make_shared <sensor_msgs::PointCloud> (pts);
00308 cloud_pub_.publish(ptr);
00309 }
00310 if (cloud2_pub_.getNumSubscribers() > 0 || pull_raw_data)
00311 {
00312 pts.header = header;
00313 sensor_msgs::PointCloud2 outbuf;
00314 if(!sensor_msgs::convertPointCloudToPointCloud2 (pts, outbuf))
00315 {
00316 ROS_ERROR ("[cr_capture] Conversion from sensor_msgs::PointCloud2 to sensor_msgs::PointCloud failed!");
00317 return;
00318 }
00319 outbuf.width = sr_lib_.width();
00320 outbuf.height = sr_lib_.height();
00321 outbuf.row_step = outbuf.width * outbuf.point_step;
00322 if(pull_raw_data)
00323 raw_cloud_.point_cloud = outbuf;
00324
00325 if (cloud2_pub_.getNumSubscribers() > 0 )
00326 {
00327 sensor_msgs::PointCloud2Ptr ptr = boost::make_shared <sensor_msgs::PointCloud2> (outbuf);
00328 cloud2_pub_.publish(ptr);
00329 }
00330 }
00331 }
00332 };
00333
00334 int main(int argc, char **argv)
00335 {
00336 ros::init(argc, argv, "cr_capture");
00337
00338 CRCaptureNode cap_node;
00339
00340 ros::spin();
00341 return 0;
00342 }