bool MotomanJointTrajectoryStreamer::VectorToJointData(const std::vector<double> &vec, JointData &joints) { if (vec.size() > joints.getMaxNumJoints()) ROS_ERROR_RETURN(false, "Failed to copy to JointData. Len (%d) out of range (0 to %d)", vec.size(), joints.getMaxNumJoints()); joints.init(); for (int i = 0; i < vec.size(); ++i) { joints.setJoint(i, vec[i]); } return true; }
TEST(DISABLED_TrajectoryJob, init) { using namespace std; TrajectoryJob job; JointTraj traj; JointTrajPt pt; JointData init; string job_name = "JOB_NAME"; string job_ext = ".JBI"; const int TRAJ_SIZE = 50; const int BIG_JOB_BUFFER_SIZE = 500000; char bigJobBuffer[BIG_JOB_BUFFER_SIZE]; const int SMALL_JOB_BUFFER_SIZE = 10; char smallJobBuffer[SMALL_JOB_BUFFER_SIZE]; for (int i = 1; i <= TRAJ_SIZE; i++) { //ROS_DEBUG("Initializing joint: %d", i); for (int j = 0; j < init.getMaxNumJoints(); j++) { //ROS_DEBUG("Initializing point: %d.%d", i, j); ASSERT_TRUE(init.setJoint(j, (i*(j+1)))); } pt.init(i, init, 11.1111, 0.01); ASSERT_TRUE(traj.addPoint(pt)); } EXPECT_FALSE(job.init("this name is way too long to be the name of a file and this should fail")); ASSERT_TRUE(job.init((char*)job_name.c_str())); EXPECT_FALSE(job.toJobString(traj, &smallJobBuffer[0], SMALL_JOB_BUFFER_SIZE)); // Test is disabled because the line below fails due to missing conversions functions. This // ability has been moved to the controller and now is dynamically updated at runtime. There // may not be a solution to this issue. EXPECT_TRUE(job.toJobString(traj, &bigJobBuffer[0], BIG_JOB_BUFFER_SIZE)); ofstream file; job_name.append(job_ext); file.open(job_name.c_str()); ASSERT_TRUE(file.is_open()); file << bigJobBuffer; file.close(); }
void JointTrajectoryDownloader::jointTrajectoryCB( const trajectory_msgs::JointTrajectoryConstPtr &msg) { ROS_INFO("Receiving joint trajectory message"); /* if (!checkTrajectory(msg)) { ROS_ERROR("Joint trajectory check failed, trajectory not downloaded"); return; } std::vector<double> joint_velocity_limits; if (!getVelocityLimits("robot_description", msg->joint_names, joint_velocity_limits)) { ROS_ERROR("Failed to get joint velocity limits"); return; } */ for (int i = 0; i < msg->points.size(); i++) { ROS_INFO("Sending joints trajectory point[%d]", i); JointTrajPt jPt; JointTrajPtMessage jMsg; SimpleMessage topic; trajectory_msgs::JointTrajectoryPoint pt; pt = msg->points[i]; // The first and last sequence values must be given a special sequence // value if (0 == i) { ROS_DEBUG("First trajectory point, setting special sequence value"); jPt.setSequence(SpecialSeqValues::START_TRAJECTORY_DOWNLOAD); } else if (msg->points.size() - 1 == i) { ROS_DEBUG("Last trajectory point, setting special sequence value"); jMsg.point_.setSequence(SpecialSeqValues::END_TRAJECTORY); } else { jMsg.point_.setSequence(i); } // Copy position data to local variable JointData data; for (int j = 0; j < msg->joint_names.size(); j++) { pt = msg->points[j]; data.setJoint(j, pt.positions[j]); } // Initialize joint trajectory message jPt.setJointPosition(data); jMsg.init(jPt); jMsg.toTopic(topic); ROS_DEBUG("Sending joint trajectory point"); if (this->robot_->sendMsg(topic)) { ROS_INFO("Point[%d] sent to controller", i); } else { ROS_WARN("Failed sent joint point, skipping point"); } } }
void JointTrajectoryDownloader::jointTrajectoryCB( const trajectory_msgs::JointTrajectoryConstPtr &msg) { ROS_INFO("Receiving joint trajectory message"); // TBD: re-enable in a more generic fashion? //if (!checkTrajectory(msg)) //{ // ROS_ERROR("Joint trajectory check failed, trajectory not downloaded"); // return; //} std::vector<double> joint_velocity_limits; std::vector<trajectory_msgs::JointTrajectoryPoint> points(msg->points); // TBD: re-enable velocity scaling //if (!getVelocityLimits("robot_description", msg, joint_velocity_limits)) //{ // ROS_ERROR("Failed to get joint velocity limits"); // return; //} // Trajectory download requires at least two points (START/END) if (points.size() < 2) points.push_back(trajectory_msgs::JointTrajectoryPoint(points[0])); if (!this->robot_->isConnected()) { ROS_WARN("Attempting robot reconnection"); this->robot_->makeConnect(); } ROS_INFO("Sending trajectory points, size: %d", points.size()); for (int i = 0; i < points.size(); i++) { ROS_INFO("Sending joints trajectory point[%d]", i); JointTrajPt jPt; JointTrajPtMessage jMsg; SimpleMessage topic; // Performing a manual copy of the joint velocities in order to send them // to the utility function. Passing the pt data members doesn't seem to // work. std::vector<double> joint_velocities(0.0); double velocity =0 ; joint_velocities.resize(msg->joint_names.size(), 0.0); for (int j = 0; j < joint_velocities.size(); j++) { joint_velocities[j] = points[i].velocities[j]; } ROS_DEBUG("Joint velocities copied"); // TBD: restore joint-velocity scaling //velocity = toMotomanVelocity(joint_velocity_limits, joint_velocities); velocity = 0.20; // TBD: hardcode for now jPt.setVelocity(velocity); // The first and last sequence values must be given a special sequence // value if (0 == i) { ROS_DEBUG("First trajectory point, setting special sequence value"); jPt.setSequence(SpecialSeqValues::START_TRAJECTORY_DOWNLOAD); } else if (points.size() - 1 == i) { ROS_DEBUG("Last trajectory point, setting special sequence value"); jPt.setSequence(SpecialSeqValues::END_TRAJECTORY); } else { jPt.setSequence(i); } // Copy position data to local variable JointData data; for (int j = 0; j < msg->joint_names.size(); j++) { data.setJoint(j, points[i].positions[j]); } // Initialize joint trajectory message jPt.setJointPosition(data); jMsg.init(jPt); jMsg.toTopic(topic); ROS_DEBUG("Sending joint trajectory point"); if (this->robot_->sendMsg(topic)) { ROS_INFO("Point[%d] sent to controller", i); } else { ROS_WARN("Failed sent joint point, skipping point"); } } }