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00013 #ifndef OBJECTPICKER_H_
00014 #define OBJECTPICKER_H_
00015
00016 #include "VirtualRangeSensor.h"
00017 #include "UWSimUtils.h"
00018 #include "URDFRobot.h"
00019
00020
00021 class ObjectPickerUpdateCallback : public IntersectorUpdateCallback
00022 {
00023 virtual void operator()(osg::Node *node, osg::NodeVisitor *nv)
00024 {
00025 osg::Matrixd mStart, mEnd;
00026 mStart = osg::computeLocalToWorld(nv->getNodePath());
00027 traverse(node, nv);
00028
00029
00030 mEnd = mStart;
00031 mEnd.preMultTranslate(osg::Vec3d(range, 0, 0));
00032
00033 intersector->reset();
00034 intersector->setStart(mStart.getTrans());
00035 intersector->setEnd(mEnd.getTrans());
00036
00037 root->accept(intersectVisitor);
00038
00039 if (intersector->containsIntersections() && !picked)
00040 {
00041 osgUtil::LineSegmentIntersector::Intersection intersection = intersector->getFirstIntersection();
00042 osg::Vec3d worldIntPoint = intersection.getWorldIntersectPoint();
00043 distance_to_obstacle = (worldIntPoint - mStart.getTrans()).length();
00044 impact = intersection.nodePath;
00045
00046
00047 for (osg::NodePath::iterator i = impact.begin(); i != impact.end(); ++i)
00048 {
00049 osg::ref_ptr<NodeDataType> data = dynamic_cast<NodeDataType*>(i[0]->getUserData());
00050 if (data != NULL && data->catchable)
00051 {
00052
00053 std::cerr << "Picking object up." << std::endl;
00054
00055 if (data->rigidBody)
00056 data->rigidBody->setCollisionFlags(
00057 data->rigidBody->getCollisionFlags() | btCollisionObject::CF_STATIC_OBJECT);
00058
00059
00060 urdf->addToKinematicChain(i[0], data->rigidBody);
00061
00062 osg::Node * objectTransf = i[0]->getParent(0)->getParent(0);
00063
00064
00065 boost::shared_ptr<osg::Matrix> originalpos = getWorldCoords(objectTransf);
00066 boost::shared_ptr<osg::Matrix> hand = getWorldCoords(trackNode);
00067 hand->invert(*hand);
00068
00069
00070 trackNode->asTransform()->addChild(objectTransf);
00071 objectTransf->getParent(0)->asGroup()->removeChild(objectTransf);
00072
00073 osg::Matrixd matrix = *originalpos * *hand;
00074 objectTransf->asTransform()->asMatrixTransform()->setMatrix(matrix);
00075
00076 picked = true;
00077 }
00078 }
00079 }
00080 else if (!picked)
00081 distance_to_obstacle = range;
00082 }
00083 public:
00084 osg::NodePath impact;
00085 osg::Node *trackNode;
00086 boost::shared_ptr<URDFRobot> urdf;
00087 bool picked;
00088
00089 ObjectPickerUpdateCallback(osg::Node *trackNode, double range, bool visible, osg::Node *root,
00090 boost::shared_ptr<URDFRobot> urdf) :
00091 IntersectorUpdateCallback(range, visible, root)
00092 {
00093 this->trackNode = trackNode;
00094 picked = false;
00095 this->urdf = urdf;
00096 }
00097 };
00098
00099 class ObjectPicker : public VirtualRangeSensor
00100 {
00101 public:
00102 ObjectPicker(std::string name, osg::Node *root, osg::Node *trackNode, double range, bool visible,
00103 boost::shared_ptr<URDFRobot> urdf,unsigned int mask);
00104 ObjectPicker();
00105
00106 void init(std::string name, osg::Node *root, osg::Node *trackNode, double range, bool visible,
00107 boost::shared_ptr<URDFRobot> urdf,unsigned int mask);
00108 };
00109
00110 #endif