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pxmlw6n2f/Gazebo_Distributed_TCP/plugins/events/RegionEventBoxPlugin.cc

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/*
* Copyright (C) 2015 Open Source Robotics Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
#include "RegionEventBoxPlugin.hh"
using namespace gazebo;
GZ_REGISTER_MODEL_PLUGIN(RegionEventBoxPlugin)
//////////////////////////////////////////////////
RegionEventBoxPlugin::RegionEventBoxPlugin()
: ModelPlugin(), eventPub(0)
{
this->hasStaleSizeAndPose = true;
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::Load(physics::ModelPtr _parent, sdf::ElementPtr _sdf)
{
this->model = _parent;
this->modelName = _parent->GetName();
this->world = _parent->GetWorld();
this->node = transport::NodePtr(new transport::Node());
this->node->Init();
this->modelSub = this->node->Subscribe("~/model/info",
&RegionEventBoxPlugin::OnModelMsg, this);
sdf::ElementPtr linkEl = this->model->GetSDF()->GetElement("link");
if (!linkEl->HasElement("visual"))
{
gzerr << "RegionEventBoxPlugin requires a visual element. "
<< "Plugin fails to load."
<< std::endl;
return;
}
sdf::ElementPtr visualEl = linkEl->GetElement("visual");
sdf::ElementPtr geometryEl = visualEl->GetElement("geometry");
if (!geometryEl->HasElement("box"))
{
gzerr << "RegionEventBoxPlugin requires a visual element "
<< "with a box geometry. Plugin fails to load."
<< std::endl;
return;
}
sdf::ElementPtr boxEl = geometryEl->GetElement("box");
this->boxSize = boxEl->Get<ignition::math::Vector3d>("size");
this->boxScale = ignition::math::Vector3d::One;
this->boxPose = this->model->GetWorldPose().Ign();
this->UpdateRegion(this->boxSize * this->boxScale, this->boxPose);
if (_sdf->HasElement("event"))
{
sdf::ElementPtr event = _sdf->GetElement("event");
std::string eventType = event->Get<std::string>("type");
if (eventType == "inclusion")
{
this->eventPub =
this->node->Advertise<gazebo::msgs::SimEvent>("/gazebo/sim_events");
this->eventSource = gazebo::EventSourcePtr(
new EventSource(eventPub, eventType, this->world));
this->eventSource->Load(event);
}
}
this->updateConnection = event::Events::ConnectWorldUpdateBegin(
boost::bind(&RegionEventBoxPlugin::OnUpdate, this, _1));
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::OnModelMsg(ConstModelPtr &_msg)
{
std::lock_guard<std::mutex> lock(this->receiveMutex);
if (_msg->has_name() && _msg->name() == this->modelName && _msg->has_scale())
{
this->boxScale = msgs::ConvertIgn(_msg->scale());
this->hasStaleSizeAndPose = true;
}
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::OnUpdate(const common::UpdateInfo &_info)
{
// check to see if the box visual geometry has changed size or pose
// due to user interaction via the gui, if so update region dimensions
{
std::lock_guard<std::mutex> lock(this->receiveMutex);
if (this->boxPose != this->model->GetWorldPose().Ign())
{
this->boxPose = this->model->GetWorldPose().Ign();
this->hasStaleSizeAndPose = true;
}
if (this->hasStaleSizeAndPose)
{
this->UpdateRegion(this->boxSize * this->boxScale, this->boxPose);
this->hasStaleSizeAndPose = false;
}
}
// check if any model in the world is in the region or if a model that was
// previously in the region has exited the region.
for (unsigned int i = 0; i < this->world->GetModelCount(); ++i)
{
physics::ModelPtr m = this->world->GetModel(i);
std::string name = m->GetName();
if (name == "ground_plane" || name == this->modelName)
continue;
auto it = this->insiders.find(m->GetName());
if (this->PointInRegion(m->GetWorldPose().pos.Ign(), this->box,
this->boxPose))
{
if (it == this->insiders.end())
{
this->insiders[m->GetName()] = _info.simTime;
if (this->eventPub)
this->SendEnteringRegionEvent(m);
}
}
else
{
if (it != this->insiders.end())
{
if (this->eventPub)
this->SendExitingRegionEvent(m);
this->insiders.erase(m->GetName());
}
}
}
}
//////////////////////////////////////////////////
bool RegionEventBoxPlugin::PointInRegion(const ignition::math::Vector3d &_point,
const ignition::math::Box &_box, const ignition::math::Pose3d &_pose) const
{
// transform box extents into local space
// box extents are already axis-aligned (see UpdateRegion) so no need to
// apply inverse rotation.
ignition::math::Box localBox(_box.Min() - _pose.Pos(),
_box.Max() - _pose.Pos());
// transform point into box space
ignition::math::Vector3d p =
_pose.Rot().Inverse() * (_point - _pose.Pos());
return localBox.Contains(p);
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::UpdateRegion(const ignition::math::Vector3d &_size,
const ignition::math::Pose3d &_pose)
{
ignition::math::Vector3d vmin = _pose.Pos() - _size * 0.5;
ignition::math::Vector3d vmax = _pose.Pos() + _size * 0.5;
this->box = ignition::math::Box(vmin, vmax);
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::SendEnteringRegionEvent(physics::ModelPtr _model)
const
{
std::string json = "{";
json += "\"state\":\"inside\",";
json += "\"region\":\"" + this->modelName + "\", ";
json += "\"model\":\"" + _model->GetName() + "\"";
json += "}";
this->eventSource->Emit(json);
}
//////////////////////////////////////////////////
void RegionEventBoxPlugin::SendExitingRegionEvent(physics::ModelPtr _model)
const
{
std::string json = "{";
json += "\"state\":\"outside\",";
json += "\"region\":\"" + this->modelName + "\", ";
json += "\"model\":\"" + _model->GetName() + "\"";
json += "}";
this->eventSource->Emit(json);
}
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