pxmlw6n2f/Gazebo_Distributed_MPI/plugins/BuoyancyPlugin.cc

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2019-04-18 10:27:54 +08:00
/*
* 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 "gazebo/common/Assert.hh"
#include "gazebo/common/Events.hh"
#include "plugins/BuoyancyPlugin.hh"
using namespace gazebo;
GZ_REGISTER_MODEL_PLUGIN(BuoyancyPlugin)
/////////////////////////////////////////////////
BuoyancyPlugin::BuoyancyPlugin()
// Density of liquid water at 1 atm pressure and 15 degrees Celsius.
: fluidDensity(999.1026)
{
}
/////////////////////////////////////////////////
void BuoyancyPlugin::Load(physics::ModelPtr _model, sdf::ElementPtr _sdf)
{
GZ_ASSERT(_model != NULL, "Received NULL model pointer");
this->model = _model;
physics::WorldPtr world = _model->GetWorld();
GZ_ASSERT(world != NULL, "Model is in a NULL world");
this->physicsEngine = world->GetPhysicsEngine();
GZ_ASSERT(this->physicsEngine != NULL, "Physics engine was NULL");
GZ_ASSERT(_sdf != NULL, "Received NULL SDF pointer");
this->sdf = _sdf;
if (this->sdf->HasElement("fluid_density"))
{
this->fluidDensity = this->sdf->Get<double>("fluid_density");
}
// Get "center of volume" and "volume" that were inputted in SDF
// SDF input is recommended for mesh or polylines collision shapes
if (this->sdf->HasElement("link"))
{
for (sdf::ElementPtr linkElem = this->sdf->GetElement("link"); linkElem;
linkElem = linkElem->GetNextElement("link"))
{
int id = -1;
std::string name = "";
if (linkElem->HasAttribute("name"))
{
name = linkElem->Get<std::string>("name");
physics::LinkPtr link =
this->model->GetLink(name);
if (!link)
{
gzwarn << "Specified link [" << name << "] not found." << std::endl;
continue;
}
id = link->GetId();
}
else
{
gzwarn << "Required attribute name missing from link [" << name
<< "] in BuoyancyPlugin SDF" << std::endl;
// Exit if we didn't set ID
continue;
}
if (this->volPropsMap.count(id) != 0)
{
gzwarn << "Properties for link [" << name << "] already set, skipping "
<< "second property block" << std::endl;
}
if (linkElem->HasElement("center_of_volume"))
{
math::Vector3 cov =
linkElem->GetElement("center_of_volume")->Get<math::Vector3>();
this->volPropsMap[id].cov = cov;
}
else
{
gzwarn << "Required element center_of_volume missing from link ["
<< name
<< "] in BuoyancyPlugin SDF" << std::endl;
continue;
}
if (linkElem->HasElement("volume"))
{
double volume = linkElem->GetElement("volume")->Get<double>();
if (volume <= 0)
{
gzwarn << "Nonpositive volume specified in BuoyancyPlugin!"
<< std::endl;
// Remove the element from the map since it's invalid.
this->volPropsMap.erase(id);
continue;
}
this->volPropsMap[id].volume = volume;
}
else
{
gzwarn << "Required element volume missing from element link [" << name
<< "] in BuoyancyPlugin SDF" << std::endl;
continue;
}
}
}
// For links the user didn't input, precompute the center of volume and
// density. This will be accurate for simple shapes.
for (auto link : this->model->GetLinks())
{
int id = link->GetId();
if (this->volPropsMap.find(id) == this->volPropsMap.end())
{
double volumeSum = 0;
math::Vector3 weightedPosSum = math::Vector3::Zero;
// The center of volume of the link is a weighted average over the pose
// of each collision shape, where the weight is the volume of the shape
for (auto collision : link->GetCollisions())
{
double volume = collision->GetShape()->ComputeVolume();
volumeSum += volume;
weightedPosSum += volume*collision->GetWorldPose().pos;
}
// Subtract the center of volume into the link frame.
this->volPropsMap[id].cov =
weightedPosSum/volumeSum - link->GetWorldPose().pos;
this->volPropsMap[id].volume = volumeSum;
}
}
}
/////////////////////////////////////////////////
void BuoyancyPlugin::Init()
{
this->updateConnection = event::Events::ConnectWorldUpdateBegin(
std::bind(&BuoyancyPlugin::OnUpdate, this));
}
/////////////////////////////////////////////////
void BuoyancyPlugin::OnUpdate()
{
for (auto link : this->model->GetLinks())
{
VolumeProperties volumeProperties = this->volPropsMap[link->GetId()];
double volume = volumeProperties.volume;
GZ_ASSERT(volume > 0, "Nonpositive volume found in volume properties!");
// By Archimedes' principle,
// buoyancy = -(mass*gravity)*fluid_density/object_density
// object_density = mass/volume, so the mass term cancels.
// Therefore,
math::Vector3 buoyancy =
-this->fluidDensity * volume * this->physicsEngine->GetGravity();
math::Pose linkFrame = link->GetWorldPose();
// rotate buoyancy into the link frame before applying the force.
math::Vector3 buoyancyLinkFrame =
linkFrame.rot.GetInverse().RotateVector(buoyancy);
link->AddLinkForce(buoyancyLinkFrame, volumeProperties.cov);
}
}