pxmlw6n2f/Gazebo_Distributed_TCP/gazebo/physics/dart/DARTUniversalJoint.cc

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2019-03-28 10:57:49 +08:00
/*
* Copyright (C) 2014 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/gazebo_config.h"
#include "gazebo/common/Console.hh"
#include "gazebo/physics/Link.hh"
#include "gazebo/physics/dart/DARTJointPrivate.hh"
#include "gazebo/physics/dart/DARTUniversalJoint.hh"
using namespace gazebo;
using namespace physics;
//////////////////////////////////////////////////
DARTUniversalJoint::DARTUniversalJoint(BasePtr _parent)
: UniversalJoint<DARTJoint>(_parent)
{
this->dataPtr->dtJoint = new dart::dynamics::UniversalJoint();
}
//////////////////////////////////////////////////
DARTUniversalJoint::~DARTUniversalJoint()
{
// We don't need to delete dtJoint because the world will delete it
}
//////////////////////////////////////////////////
void DARTUniversalJoint::Load(sdf::ElementPtr _sdf)
{
UniversalJoint<DARTJoint>::Load(_sdf);
}
//////////////////////////////////////////////////
void DARTUniversalJoint::Init()
{
UniversalJoint<DARTJoint>::Init();
}
//////////////////////////////////////////////////
math::Vector3 DARTUniversalJoint::GetAnchor(unsigned int /*index*/) const
{
Eigen::Isometry3d T = this->dataPtr->dtChildBodyNode->getTransform() *
this->dataPtr->dtJoint->getTransformFromChildBodyNode();
Eigen::Vector3d worldOrigin = T.translation();
return DARTTypes::ConvVec3(worldOrigin);
}
//////////////////////////////////////////////////
math::Vector3 DARTUniversalJoint::GetGlobalAxis(unsigned int _index) const
{
Eigen::Vector3d globalAxis = Eigen::Vector3d::UnitX();
if (_index == 0)
{
dart::dynamics::UniversalJoint *dtUniveralJoint =
reinterpret_cast<dart::dynamics::UniversalJoint *>(
this->dataPtr->dtJoint);
Eigen::Isometry3d T = this->dataPtr->dtChildBodyNode->getTransform() *
this->dataPtr->dtJoint->getLocalTransform().inverse() *
this->dataPtr->dtJoint->getTransformFromParentBodyNode();
Eigen::Vector3d axis = dtUniveralJoint->getAxis1();
globalAxis = T.linear() * axis;
}
else if (_index == 1)
{
dart::dynamics::UniversalJoint *dtUniveralJoint =
reinterpret_cast<dart::dynamics::UniversalJoint *>(
this->dataPtr->dtJoint);
Eigen::Isometry3d T = this->dataPtr->dtChildBodyNode->getTransform() *
this->dataPtr->dtJoint->getTransformFromChildBodyNode();
Eigen::Vector3d axis = dtUniveralJoint->getAxis2();
globalAxis = T.linear() * axis;
}
else
{
gzerr << "Invalid index[" << _index << "]\n";
}
return DARTTypes::ConvVec3(globalAxis);
}
//////////////////////////////////////////////////
void DARTUniversalJoint::SetAxis(unsigned int _index,
const math::Vector3 &_axis)
{
Eigen::Vector3d dtAxis = DARTTypes::ConvVec3(
this->GetAxisFrameOffset(_index).RotateVector(_axis));
Eigen::Isometry3d dtTransfJointLeftToParentLink
= this->dataPtr->dtJoint->getTransformFromParentBodyNode().inverse();
dtAxis = dtTransfJointLeftToParentLink.linear() * dtAxis;
if (_index == 0)
{
dart::dynamics::UniversalJoint *dtUniveralJoint =
reinterpret_cast<dart::dynamics::UniversalJoint *>(
this->dataPtr->dtJoint);
dtUniveralJoint->setAxis1(dtAxis);
}
else if (_index == 1)
{
dart::dynamics::UniversalJoint *dtUniveralJoint =
reinterpret_cast<dart::dynamics::UniversalJoint *>(
this->dataPtr->dtJoint);
dtUniveralJoint->setAxis2(dtAxis);
}
else
{
gzerr << "Invalid index[" << _index << "]\n";
}
}
//////////////////////////////////////////////////
math::Angle DARTUniversalJoint::GetAngleImpl(unsigned int _index) const
{
math::Angle result;
if (_index == 0)
{
double radianAngle = this->dataPtr->dtJoint->getPosition(0);
result.SetFromRadian(radianAngle);
}
else if (_index == 1)
{
double radianAngle = this->dataPtr->dtJoint->getPosition(1);
result.SetFromRadian(radianAngle);
}
else
{
gzerr << "Invalid index[" << _index << "]\n";
}
return result;
}
//////////////////////////////////////////////////
double DARTUniversalJoint::GetVelocity(unsigned int _index) const
{
double result = 0.0;
if (_index == 0)
result = this->dataPtr->dtJoint->getVelocity(0);
else if (_index == 1)
result = this->dataPtr->dtJoint->getVelocity(1);
else
gzerr << "Invalid index[" << _index << "]\n";
return result;
}
//////////////////////////////////////////////////
void DARTUniversalJoint::SetVelocity(unsigned int _index, double _vel)
{
if (_index < this->GetAngleCount())
{
this->dataPtr->dtJoint->setVelocity(_index, _vel);
this->dataPtr->dtJoint->getSkeleton()->computeForwardKinematics(
false, true, false);
}
else
gzerr << "Invalid index[" << _index << "]\n";
}
//////////////////////////////////////////////////
void DARTUniversalJoint::SetForceImpl(unsigned int _index, double _effort)
{
if (_index == 0)
this->dataPtr->dtJoint->setForce(0, _effort);
else if (_index == 1)
this->dataPtr->dtJoint->setForce(1, _effort);
else
gzerr << "Invalid index[" << _index << "]\n";
}