248 lines
8.0 KiB
C++
248 lines
8.0 KiB
C++
/*
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* Copyright (C) 2015 Open Source Robotics Foundation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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#include <mutex>
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#include <string>
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#include <sdf/sdf.hh>
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#include <gazebo/common/Assert.hh>
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#include <gazebo/common/Plugin.hh>
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#include <gazebo/msgs/msgs.hh>
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#include <gazebo/physics/physics.hh>
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#include <gazebo/transport/transport.hh>
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#include "plugins/CessnaPlugin.hh"
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using namespace gazebo;
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GZ_REGISTER_MODEL_PLUGIN(CessnaPlugin)
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////////////////////////////////////////////////////////////////////////////////
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CessnaPlugin::CessnaPlugin() : cmds {{0, 0, 0, 0, 0, 0, 0}}
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{
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// PID default parameters.
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this->propellerPID.Init(50.0, 0.1, 1, 0.0, 0.0, 20000.0, -20000.0);
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this->propellerPID.SetCmd(0.0);
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for (auto &pid : this->controlSurfacesPID)
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{
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pid.Init(50.0, 0.1, 1, 0.0, 0.0, 20.0, -20.0);
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pid.SetCmd(0.0);
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}
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}
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/////////////////////////////////////////////////
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CessnaPlugin::~CessnaPlugin()
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{
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event::Events::DisconnectWorldUpdateBegin(this->updateConnection);
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}
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/////////////////////////////////////////////////
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bool CessnaPlugin::FindJoint(const std::string &_sdfParam, sdf::ElementPtr _sdf,
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physics::JointPtr &_joint)
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{
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// Read the required plugin parameters.
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if (!_sdf->HasElement(_sdfParam))
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{
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gzerr << "Unable to find the <" << _sdfParam << "> parameter." << std::endl;
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return false;
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}
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std::string jointName = _sdf->Get<std::string>(_sdfParam);
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_joint = this->model->GetJoint(jointName);
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if (!_joint)
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{
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gzerr << "Failed to find joint [" << jointName
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<< "] aborting plugin load." << std::endl;
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return false;
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}
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return true;
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}
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/////////////////////////////////////////////////
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void CessnaPlugin::Load(physics::ModelPtr _model, sdf::ElementPtr _sdf)
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{
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GZ_ASSERT(_model, "CessnaPlugin _model pointer is NULL");
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GZ_ASSERT(_sdf, "CessnaPlugin _sdf pointer is NULL");
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this->model = _model;
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// Read the required parameter for the propeller max RPMs.
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if (!_sdf->HasElement("propeller_max_rpm"))
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{
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gzerr << "Unable to find the <propeller_max_rpm> parameter." << std::endl;
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return;
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}
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this->propellerMaxRpm = _sdf->Get<int32_t>("propeller_max_rpm");
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if (this->propellerMaxRpm == 0)
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{
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gzerr << "Maximum propeller RPMs cannot be 0" << std::endl;
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return;
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}
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// Read the required joint name parameters.
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std::vector<std::string> requiredParams = {"left_aileron", "left_flap",
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"right_aileron", "right_flap", "elevators", "rudder", "propeller"};
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for (size_t i = 0; i < requiredParams.size(); ++i)
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{
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if (!this->FindJoint(requiredParams[i], _sdf, this->joints[i]))
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return;
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}
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// Overload the PID parameters if they are available.
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if (_sdf->HasElement("propeller_p_gain"))
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this->propellerPID.SetPGain(_sdf->Get<double>("propeller_p_gain"));
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if (_sdf->HasElement("propeller_i_gain"))
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this->propellerPID.SetIGain(_sdf->Get<double>("propeller_i_gain"));
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if (_sdf->HasElement("propeller_d_gain"))
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this->propellerPID.SetDGain(_sdf->Get<double>("propeller_d_gain"));
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if (_sdf->HasElement("surfaces_p_gain"))
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{
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for (auto &pid : this->controlSurfacesPID)
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pid.SetPGain(_sdf->Get<double>("surfaces_p_gain"));
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}
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if (_sdf->HasElement("surfaces_i_gain"))
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{
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for (auto &pid : this->controlSurfacesPID)
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pid.SetIGain(_sdf->Get<double>("surfaces_i_gain"));
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}
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if (_sdf->HasElement("surfaces_d_gain"))
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{
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for (auto &pid : this->controlSurfacesPID)
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pid.SetDGain(_sdf->Get<double>("surfaces_d_gain"));
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}
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// Controller time control.
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this->lastControllerUpdateTime = this->model->GetWorld()->GetSimTime();
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// Listen to the update event. This event is broadcast every simulation
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// iteration.
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this->updateConnection = event::Events::ConnectWorldUpdateBegin(
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boost::bind(&CessnaPlugin::Update, this, _1));
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// Initialize transport.
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this->node = transport::NodePtr(new transport::Node());
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this->node->Init();
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std::string prefix = "~/" + this->model->GetName() + "/";
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this->statePub = this->node->Advertise<msgs::Cessna>(prefix + "state");
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this->controlSub = this->node->Subscribe(prefix + "control",
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&CessnaPlugin::OnControl, this);
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gzlog << "Cessna ready to fly. The force will be with you" << std::endl;
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}
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/////////////////////////////////////////////////
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void CessnaPlugin::Update(const common::UpdateInfo &/*_info*/)
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{
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std::lock_guard<std::mutex> lock(this->mutex);
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gazebo::common::Time curTime = this->model->GetWorld()->GetSimTime();
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if (curTime > this->lastControllerUpdateTime)
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{
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// Update the control surfaces and publish the new state.
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this->UpdatePIDs((curTime - this->lastControllerUpdateTime).Double());
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this->PublishState();
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this->lastControllerUpdateTime = curTime;
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}
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}
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/////////////////////////////////////////////////
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void CessnaPlugin::OnControl(ConstCessnaPtr &_msg)
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{
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std::lock_guard<std::mutex> lock(this->mutex);
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if (_msg->has_cmd_propeller_speed() &&
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std::abs(_msg->cmd_propeller_speed()) <= 1)
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{
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this->cmds[kPropeller] = _msg->cmd_propeller_speed();
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}
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if (_msg->has_cmd_left_aileron())
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this->cmds[kLeftAileron] = _msg->cmd_left_aileron();
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if (_msg->has_cmd_left_flap())
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this->cmds[kLeftFlap] = _msg->cmd_left_flap();
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if (_msg->has_cmd_right_aileron())
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this->cmds[kRightAileron] = _msg->cmd_right_aileron();
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if (_msg->has_cmd_right_flap())
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this->cmds[kRightFlap] = _msg->cmd_right_flap();
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if (_msg->has_cmd_elevators())
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this->cmds[kElevators] = _msg->cmd_elevators();
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if (_msg->has_cmd_rudder())
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this->cmds[kRudder] = _msg->cmd_rudder();
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}
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/////////////////////////////////////////////////
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void CessnaPlugin::UpdatePIDs(double _dt)
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{
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// Velocity PID for the propeller.
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double vel = this->joints[kPropeller]->GetVelocity(0);
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double maxVel = this->propellerMaxRpm*2.0*M_PI/60.0;
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double target = maxVel * this->cmds[kPropeller];
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double error = vel - target;
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double force = this->propellerPID.Update(error, _dt);
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this->joints[kPropeller]->SetForce(0, force);
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// Position PID for the control surfaces.
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for (size_t i = 0; i < this->controlSurfacesPID.size(); ++i)
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{
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double pos = this->joints[i]->GetAngle(0).Radian();
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error = pos - this->cmds[i];
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force = this->controlSurfacesPID[i].Update(error, _dt);
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this->joints[i]->SetForce(0, force);
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}
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}
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/////////////////////////////////////////////////
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void CessnaPlugin::PublishState()
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{
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// Read the current state.
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double propellerRpms = this->joints[kPropeller]->GetVelocity(0)
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/(2.0*M_PI)*60.0;
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float propellerSpeed = propellerRpms / this->propellerMaxRpm;
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float leftAileron = this->joints[kLeftAileron]->GetAngle(0).Radian();
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float leftFlap = this->joints[kLeftFlap]->GetAngle(0).Radian();
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float rightAileron = this->joints[kRightAileron]->GetAngle(0).Radian();
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float rightFlap = this->joints[kRightFlap]->GetAngle(0).Radian();
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float elevators = this->joints[kElevators]->GetAngle(0).Radian();
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float rudder = this->joints[kRudder]->GetAngle(0).Radian();
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msgs::Cessna msg;
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// Set the observed state.
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msg.set_propeller_speed(propellerSpeed);
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msg.set_left_aileron(leftAileron);
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msg.set_left_flap(leftFlap);
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msg.set_right_aileron(rightAileron);
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msg.set_right_flap(rightFlap);
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msg.set_elevators(elevators);
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msg.set_rudder(rudder);
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// Set the target state.
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msg.set_cmd_propeller_speed(this->cmds[kPropeller]);
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msg.set_cmd_left_aileron(this->cmds[kLeftAileron]);
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msg.set_cmd_left_flap(this->cmds[kLeftFlap]);
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msg.set_cmd_right_aileron(this->cmds[kRightAileron]);
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msg.set_cmd_right_flap(this->cmds[kRightFlap]);
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msg.set_cmd_elevators(this->cmds[kElevators]);
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msg.set_cmd_rudder(this->cmds[kRudder]);
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this->statePub->Publish(msg);
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}
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