pxmlw6n2f/Gazebo_Distributed_TCP/gazebo/rendering/InertiaVisual.cc

188 lines
5.9 KiB
C++

/*
* 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 <ignition/math/Inertial.hh>
#include "gazebo/math/Vector3.hh"
#include "gazebo/math/Quaternion.hh"
#include "gazebo/math/Pose.hh"
#include "gazebo/rendering/DynamicLines.hh"
#include "gazebo/rendering/Scene.hh"
#include "gazebo/rendering/InertiaVisualPrivate.hh"
#include "gazebo/rendering/InertiaVisual.hh"
using namespace gazebo;
using namespace rendering;
/////////////////////////////////////////////////
InertiaVisual::InertiaVisual(const std::string &_name, VisualPtr _vis)
: Visual(*new InertiaVisualPrivate, _name, _vis, false)
{
InertiaVisualPrivate *dPtr =
reinterpret_cast<InertiaVisualPrivate *>(this->dataPtr);
dPtr->type = VT_PHYSICS;
}
/////////////////////////////////////////////////
InertiaVisual::~InertiaVisual()
{
InertiaVisualPrivate *dPtr =
reinterpret_cast<InertiaVisualPrivate *>(this->dataPtr);
if (dPtr && dPtr->sceneNode)
{
this->DestroyAllAttachedMovableObjects(dPtr->sceneNode);
dPtr->sceneNode->removeAndDestroyAllChildren();
}
}
/////////////////////////////////////////////////
void InertiaVisual::Fini()
{
InertiaVisualPrivate *dPtr =
reinterpret_cast<InertiaVisualPrivate *>(this->dataPtr);
if (dPtr && dPtr->sceneNode)
{
this->DestroyAllAttachedMovableObjects(dPtr->sceneNode);
dPtr->sceneNode->removeAndDestroyAllChildren();
}
Visual::Fini();
}
/////////////////////////////////////////////////
void InertiaVisual::Load(sdf::ElementPtr _elem)
{
Visual::Load();
math::Pose pose = _elem->Get<math::Pose>("origin");
this->Load(pose);
}
/////////////////////////////////////////////////
void InertiaVisual::Load(ConstLinkPtr &_msg)
{
Visual::Load();
auto inertial = msgs::Convert(_msg->inertial());
auto xyz = inertial.Pose().Pos();
auto q = inertial.Pose().Rot();
// Use ignition::math::MassMatrix3 to compute
// equivalent box size and rotation
auto m = inertial.MassMatrix();
ignition::math::Vector3d boxScale;
ignition::math::Quaterniond boxRot;
if (!m.EquivalentBox(boxScale, boxRot))
{
// Invalid inertia, load with default scale
gzlog << "The link " << _msg->name() << " is static or has unrealistic "
<< "inertia, so the equivalent inertia box will not be shown.\n";
}
else
{
// Apply additional rotation by boxRot
this->Load(ignition::math::Pose3d(xyz, q * boxRot), boxScale);
}
}
/////////////////////////////////////////////////
void InertiaVisual::Load(const math::Pose &_pose,
const math::Vector3 &_scale)
{
InertiaVisualPrivate *dPtr =
reinterpret_cast<InertiaVisualPrivate *>(this->dataPtr);
// Inertia position indicator
ignition::math::Vector3d p1(0, 0, -2*_scale.z);
ignition::math::Vector3d p2(0, 0, 2*_scale.z);
ignition::math::Vector3d p3(0, -2*_scale.y, 0);
ignition::math::Vector3d p4(0, 2*_scale.y, 0);
ignition::math::Vector3d p5(-2*_scale.x, 0, 0);
ignition::math::Vector3d p6(2*_scale.x, 0, 0);
p1 = _pose.Ign().Rot().RotateVector(p1);
p2 = _pose.Ign().Rot().RotateVector(p2);
p3 = _pose.Ign().Rot().RotateVector(p3);
p4 = _pose.Ign().Rot().RotateVector(p4);
p5 = _pose.Ign().Rot().RotateVector(p5);
p6 = _pose.Ign().Rot().RotateVector(p6);
p1 += _pose.Ign().Pos();
p2 += _pose.Ign().Pos();
p3 += _pose.Ign().Pos();
p4 += _pose.Ign().Pos();
p5 += _pose.Ign().Pos();
p6 += _pose.Ign().Pos();
dPtr->crossLines = this->CreateDynamicLine(rendering::RENDERING_LINE_LIST);
dPtr->crossLines->setMaterial("Gazebo/Green");
dPtr->crossLines->AddPoint(p1);
dPtr->crossLines->AddPoint(p2);
dPtr->crossLines->AddPoint(p3);
dPtr->crossLines->AddPoint(p4);
dPtr->crossLines->AddPoint(p5);
dPtr->crossLines->AddPoint(p6);
// Inertia indicator: equivalent box of uniform density
this->InsertMesh("unit_box");
Ogre::MovableObject *boxObj =
(Ogre::MovableObject*)(dPtr->scene->OgreSceneManager()->createEntity(
this->GetName()+"__BOX__", "unit_box"));
boxObj->setVisibilityFlags(GZ_VISIBILITY_GUI);
((Ogre::Entity*)boxObj)->setMaterialName("__GAZEBO_TRANS_PURPLE_MATERIAL__");
dPtr->boxNode =
dPtr->sceneNode->createChildSceneNode(this->GetName() + "_BOX_");
dPtr->boxNode->attachObject(boxObj);
dPtr->boxNode->setScale(_scale.x, _scale.y, _scale.z);
dPtr->boxNode->setPosition(_pose.pos.x, _pose.pos.y, _pose.pos.z);
dPtr->boxNode->setOrientation(Ogre::Quaternion(_pose.rot.w, _pose.rot.x,
_pose.rot.y, _pose.rot.z));
this->SetVisibilityFlags(GZ_VISIBILITY_GUI);
}
/////////////////////////////////////////////////
void InertiaVisual::DestroyAllAttachedMovableObjects(
Ogre::SceneNode *_sceneNode)
{
if (!_sceneNode)
return;
// Destroy all the attached objects
Ogre::SceneNode::ObjectIterator itObject =
_sceneNode->getAttachedObjectIterator();
while (itObject.hasMoreElements())
{
Ogre::Entity *ent = static_cast<Ogre::Entity*>(itObject.getNext());
if (ent->getMovableType() != DynamicLines::GetMovableType())
this->dataPtr->scene->OgreSceneManager()->destroyEntity(ent);
else
delete ent;
}
// Recurse to child SceneNodes
Ogre::SceneNode::ChildNodeIterator itChild = _sceneNode->getChildIterator();
while (itChild.hasMoreElements())
{
Ogre::SceneNode* pChildNode =
static_cast<Ogre::SceneNode*>(itChild.getNext());
this->DestroyAllAttachedMovableObjects(pChildNode);
}
}