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Element.cpp 6.75 KiB
/**
* \file
* \author Karsten Rink
* \date 2012-05-02
* \brief Implementation of the Element class.
*
* \copyright
* Copyright (c) 2012-2019, OpenGeoSys Community (http://www.opengeosys.org)
* Distributed under a Modified BSD License.
* See accompanying file LICENSE.txt or
* http://www.opengeosys.org/project/license
*
*/
#include "Element.h"
#include <logog/include/logog.hpp>
#include "MathLib/GeometricBasics.h"
#include "MathLib/MathTools.h"
#include "MeshLib/Node.h"
#include "Line.h"
namespace MeshLib {
Element::Element(std::size_t id)
: _nodes(nullptr), _id(id), _content(-1.0), _neighbors(nullptr)
{
}
Element::~Element()
{
delete [] this->_nodes;
delete [] this->_neighbors;
}
void Element::setNeighbor(Element* neighbor, unsigned const face_id)
{
if (neighbor == this)
{
return;
}
this->_neighbors[face_id] = neighbor;
}
boost::optional<unsigned> Element::addNeighbor(Element* e)
{
if (e == this || e == nullptr || e->getDimension() != this->getDimension())
{
return boost::optional<unsigned>();
}
if (this->hasNeighbor(e))
{
return boost::optional<unsigned>();
}
Node* face_nodes[3];
const unsigned nNodes (this->getNumberOfBaseNodes());
const unsigned eNodes (e->getNumberOfBaseNodes());
const Node* const* e_nodes = e->getNodes();
unsigned count(0);
const unsigned dim (this->getDimension());
for (unsigned i(0); i < nNodes; i++)
{
for (unsigned j(0); j < eNodes; j++)
{
if (_nodes[i] == e_nodes[j]) {
face_nodes[count] = _nodes[i];
// increment shared nodes counter and check if enough nodes are similar to be sure e is a neighbour of this
if ((++count)>=dim)
{
_neighbors[ this->identifyFace(face_nodes) ] = e;
return boost::optional<unsigned>(e->identifyFace(face_nodes));
}
}
}
}
return boost::optional<unsigned>();
}
MeshLib::Node Element::getCenterOfGravity() const
{
const unsigned nNodes (this->getNumberOfBaseNodes());
MeshLib::Node center(0,0,0);
for (unsigned i=0; i<nNodes; ++i)
{
center[0] += (*_nodes[i])[0];
center[1] += (*_nodes[i])[1];
center[2] += (*_nodes[i])[2];
}
center[0] /= nNodes;
center[1] /= nNodes;
center[2] /= nNodes;
return center;
}
void Element::computeSqrEdgeLengthRange(double &min, double &max) const
{
min = std::numeric_limits<double>::max();
max = 0;
const unsigned nEdges (this->getNumberOfEdges());
for (unsigned i=0; i<nEdges; i++)
{
const double dist (MathLib::sqrDist(*getEdgeNode(i,0), *getEdgeNode(i,1)));
min = (dist<min) ? dist : min;
max = (dist>max) ? dist : max;
}
}
void Element::computeSqrNodeDistanceRange(double &min, double &max, bool check_allnodes) const
{
min = std::numeric_limits<double>::max();
max = 0;
const unsigned nnodes = check_allnodes ? getNumberOfNodes() : getNumberOfBaseNodes();
for (unsigned i=0; i<nnodes; i++)
{
for (unsigned j=i+1; j<nnodes; j++)
{
const double dist (MathLib::sqrDist(*getNode(i), *getNode(j)));
min = std::min(dist, min);
max = std::max(dist, max);
}
}
}
const Element* Element::getNeighbor(unsigned i) const
{
#ifndef NDEBUG
if (i < getNumberOfNeighbors())
#endif
return _neighbors[i];
#ifndef NDEBUG
ERR("Error in MeshLib::Element::getNeighbor() - Index does not exist.");
return nullptr;
#endif}
unsigned Element::getNodeIDinElement(const MeshLib::Node* node) const
{
const unsigned nNodes (this->getNumberOfNodes());
for (unsigned i(0); i < nNodes; i++)
{
if (node == _nodes[i])
{
return i;
}
}
return std::numeric_limits<unsigned>::max();
}
const Node* Element::getNode(unsigned i) const
{
#ifndef NDEBUG
if (i < getNumberOfNodes())
#endif
return _nodes[i];
#ifndef NDEBUG
ERR("Error in MeshLib::Element::getNode() - Index %d in %s", i, MeshElemType2String(getGeomType()).c_str());
return nullptr;
#endif
}
void Element::setNode(unsigned idx, Node* node)
{
#ifndef NDEBUG
if (idx < getNumberOfNodes())
#endif
_nodes[idx] = node;
}
std::size_t Element::getNodeIndex(unsigned i) const
{
#ifndef NDEBUG
if (i<getNumberOfNodes())
#endif
return _nodes[i]->getID();
#ifndef NDEBUG
ERR("Error in MeshLib::Element::getNodeIndex() - Index does not exist.");
return std::numeric_limits<std::size_t>::max();
#endif
}
bool Element::hasNeighbor(Element* elem) const
{
unsigned nNeighbors (this->getNumberOfNeighbors());
for (unsigned i = 0; i < nNeighbors; i++)
{
if (this->_neighbors[i] == elem)
{
return true;
}
}
return false;
}
bool Element::isBoundaryElement() const
{
return std::any_of(_neighbors, _neighbors + this->getNumberOfNeighbors(),
[](MeshLib::Element const*const e){ return e == nullptr; });
}
#ifndef NDEBUG
std::ostream& operator<<(std::ostream& os, Element const& e)
{
os << "Element #" << e._id << " @ " << &e << " with " << e.getNumberOfNeighbors() << " neighbours\n";
unsigned const nnodes = e.getNumberOfNodes();
MeshLib::Node* const* const nodes = e.getNodes();
os << "MeshElemType: "
<< static_cast<std::underlying_type<MeshElemType>::type>(e.getGeomType())
<< " with " << nnodes << " nodes: { ";
for (unsigned n = 0; n < nnodes; ++n)
os << nodes[n]->getID() << " @ " << nodes[n] << " ";
os << "}\n";
return os;
}
#endif // NDEBUG
bool isPointInElementXY(MathLib::Point3d const& p, Element const& e)
{
for(std::size_t i(0); i<e.getNumberOfBaseNodes(); ++i) {
if (MathLib::sqrDist2d(p, *e.getNode(i)) <
std::numeric_limits<double>::epsilon())
{
return true;
}
}
if (e.getGeomType() == MeshElemType::TRIANGLE)
{
MathLib::Point3d const& n0(*e.getNode(0));
MathLib::Point3d const& n1(*e.getNode(1));
MathLib::Point3d const& n2(*e.getNode(2));
return MathLib::isPointInTriangleXY(p, n0, n1, n2);
}
if (e.getGeomType() == MeshElemType::QUAD)
{
MathLib::Point3d const& n0(*e.getNode(0));
MathLib::Point3d const& n1(*e.getNode(1));
MathLib::Point3d const& n2(*e.getNode(2));
MathLib::Point3d const& n3(*e.getNode(3));
return MathLib::isPointInTriangleXY(p, n0, n1, n2) ||
MathLib::isPointInTriangleXY(p, n0, n2, n3);
}
WARN("isPointInElementXY: element type '%s' is not supported.",
MeshLib::MeshElemType2String(e.getGeomType()).c_str());
return false;
}
} // namespace MeshLib