/usr/include/sofa/component/topology/SimpleTesselatedTetraTopologicalMapping.h is in libsofa1-dev 1.0~beta4-10ubuntu2.
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* SOFA, Simulation Open-Framework Architecture, version 1.0 beta 4 *
* (c) 2006-2009 MGH, INRIA, USTL, UJF, CNRS *
* *
* This library is free software; you can redistribute it and/or modify it *
* under the terms of the GNU Lesser General Public License as published by *
* the Free Software Foundation; either version 2.1 of the License, or (at *
* your option) any later version. *
* *
* This library is distributed in the hope that it will be useful, but WITHOUT *
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or *
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License *
* for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with this library; if not, write to the Free Software Foundation, *
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. *
*******************************************************************************
* SOFA :: Modules *
* *
* Authors: The SOFA Team and external contributors (see Authors.txt) *
* *
* Contact information: contact@sofa-framework.org *
******************************************************************************/
#ifndef SOFA_COMPONENT_TOPOLOGY_SIMPLETESELATEDTETRATOPOLOGICALMAPPING_H
#define SOFA_COMPONENT_TOPOLOGY_SIMPLETESELATEDTETRATOPOLOGICALMAPPING_H
#include <sofa/core/componentmodel/topology/TopologicalMapping.h>
#include <sofa/defaulttype/Vec.h>
#include <map>
#include <set>
#include <sofa/core/BaseMapping.h>
#include <sofa/component/topology/PointData.h>
#include <sofa/component/topology/EdgeData.h>
#include <sofa/component/topology/TetrahedronData.h>
namespace sofa
{
namespace component
{
namespace topology
{
using namespace sofa::defaulttype;
using namespace sofa::component::topology;
using namespace sofa::core::componentmodel::topology;
using namespace sofa::core;
/**
* This class, called SimpleTesselatedTetraTopologicalMapping, is a specific implementation of the interface TopologicalMapping where :
*
* INPUT TOPOLOGY = TetrahedronSetTopology
* OUTPUT TOPOLOGY = Set of TetrahedronSetTopologies, as the boundary of the INPUT TOPOLOGY
*
* Each tetrahedron in the input Topology will be divided in eight tetrahedrom in the output topology
*
* SimpleTesselatedTetraTopologicalMapping class is templated by the pair (INPUT TOPOLOGY, OUTPUT TOPOLOGY)
*
*/
class SimpleTesselatedTetraTopologicalMapping : public TopologicalMapping
{
public:
/** \brief Constructor.
*
* @param from the topology issuing TopologyChange objects (the "source").
* @param to the topology for which the TopologyChange objects must be translated (the "target").
*/
SimpleTesselatedTetraTopologicalMapping ( In* from=NULL, Out* to=NULL );
/** \brief Destructor.
*
* Does nothing.
*/
virtual ~SimpleTesselatedTetraTopologicalMapping(){};
/** \brief Initializes the target BaseTopology from the source BaseTopology.
*/
virtual void init();
/** \brief Translates the TopologyChange objects from the source to the target.
*
* Translates each of the TopologyChange objects waiting in the source list so that they have a meaning and
* reflect the effects of the first topology changes on the second topology.
*
*/
virtual void updateTopologicalMappingTopDown();
/** \brief Translates the TopologyChange objects from the target to the source.
*
* Translates each of the TopologyChange objects waiting in the source list so that they have a meaning and
* reflect the effects of the second topology changes on the first topology.
*
*/
virtual void updateTopologicalMappingBottomUp();
/// Return true if this mapping is able to propagate topological changes from input to output model
virtual bool propagateFromInputToOutputModel() { return true; }
/// Return true if this mapping is able to propagate topological changes from output to input model
virtual bool propagateFromOutputToInputModel() { return true; }
/// Pre-construction check method called by ObjectFactory.
///
/// This implementation read the object1 and object2 attributes and check
/// if they are compatible with the input and output topology types of this
/// mapping.
template<class T>
static bool canCreate ( T*& obj, core::objectmodel::BaseContext* context, core::objectmodel::BaseObjectDescription* arg )
{
if ( arg->findObject ( arg->getAttribute ( "object1","../.." ) ) == NULL )
context->serr << "Cannot create "<<className ( obj ) <<" as object1 is missing." << context->sendl;
if ( arg->findObject ( arg->getAttribute ( "object2",".." ) ) == NULL )
context->serr << "Cannot create "<<className ( obj ) <<" as object2 is missing." << context->sendl;
if ( arg->findObject ( arg->getAttribute ( "object1","../.." ) ) == NULL || arg->findObject ( arg->getAttribute ( "object2",".." ) ) == NULL )
return false;
BaseMeshTopology* topoIn;
BaseMeshTopology* topoOut;
( dynamic_cast<sofa::core::objectmodel::BaseObject*> ( arg->findObject ( arg->getAttribute ( "object1","../.." ) ) ) )->getContext()->get ( topoIn );
( dynamic_cast<sofa::core::objectmodel::BaseObject*> ( arg->findObject ( arg->getAttribute ( "object2",".." ) ) ) )->getContext()->get ( topoOut );
if ( dynamic_cast<In*> ( topoIn ) == NULL )
return false;
if ( dynamic_cast<Out*> ( topoOut ) == NULL )
return false;
return BaseMapping::canCreate ( obj, context, arg );
}
/// Construction method called by ObjectFactory.
///
/// This implementation read the object1 and object2 attributes to
/// find the input and output topologies of this mapping.
template<class T>
static void create ( T*& obj, core::objectmodel::BaseContext* context, core::objectmodel::BaseObjectDescription* arg )
{
BaseMeshTopology* topoIn=NULL;
BaseMeshTopology* topoOut=NULL;
if ( arg )
{
if ( arg->findObject ( arg->getAttribute ( "object1","../.." ) ) != NULL )
( dynamic_cast<sofa::core::objectmodel::BaseObject*> ( arg->findObject ( arg->getAttribute ( "object1","../.." ) ) ) )->getContext()->get ( topoIn );
if ( arg->findObject ( arg->getAttribute ( "object2",".." ) ) != NULL )
( dynamic_cast<sofa::core::objectmodel::BaseObject*> ( arg->findObject ( arg->getAttribute ( "object2",".." ) ) ) )->getContext()->get ( topoOut );
}
obj = new T (
( arg?dynamic_cast<In*> ( topoIn ) :NULL ),
( arg?dynamic_cast<Out*> ( topoOut ) :NULL ) );
if ( context ) context->addObject ( obj );
if ( ( arg ) && ( arg->getAttribute ( "object1" ) ) )
{
obj->object1.setValue ( arg->getAttribute ( "object1" ) );
arg->removeAttribute ( "object1" );
}
if ( ( arg ) && ( arg->getAttribute ( "object2" ) ) )
{
obj->object2.setValue ( arg->getAttribute ( "object2" ) );
arg->removeAttribute ( "object2" );
}
if ( arg ) obj->parse ( arg );
}
const PointData<int>& getPointMappedFromPoint() const { return pointMappedFromPoint; }
const EdgeData<int>& getPointMappedFromEdge() const { return pointMappedFromEdge; }
const PointData<int>& getPointSource() const { return pointSource; }
protected:
Data< std::string > object1;
Data< std::string > object2;
PointData<int> pointMappedFromPoint; ///< Each point of the input topology is mapped to the same point.
EdgeData<int> pointMappedFromEdge; ///< Each edge of the input topology is mapped to his midpoint.
TetrahedronData< fixed_array<int, 8> > tetrasMappedFromTetra; ///< Each Tetrahedron of the input topology is mapped to the 8 tetrahedrons in which it can be divided.
PointData<int> pointSource; ///< Which input topology element map to a given point in the output topology : 0 -> none, > 0 -> point index + 1, < 0 , - edge index -1
TetrahedronData<int> tetraSource; ///<Which tetra from the input topology map to a given tetra in the output topology (-1 if none)
DataPtr< helper::vector<int> > d_pointMappedFromPoint; ///< Show d_pointMappedFromPoint in the gui for debug
DataPtr< helper::vector<int> > d_pointMappedFromEdge; ///< Show d_pointMappedFromEdge in the gui for debug
DataPtr< helper::vector<int> > d_pointSource; ///< show d_pointSource in the gui for debug
void swapOutputPoints(int i1, int i2);
void removeOutputPoints( const sofa::helper::vector<unsigned int>& tab );
void renumberOutputPoints( const sofa::helper::vector<unsigned int>& tab );
void swapOutputTetras(int i1, int i2);
void removeOutputTetras( const sofa::helper::vector<unsigned int>& tab );
void setPointSource(int i, int source)
{
helper::vector<int> *pointSourceData = pointSource.beginEdit();
helper::vector<int> *pointMappedFromPointData = pointMappedFromPoint.beginEdit();
helper::vector<int>& pointMappedFromEdgeData = *(pointMappedFromEdge.beginEdit());
if (i != -1)
(*pointSourceData)[i] = source;
if (source > 0)
{
(*pointMappedFromPointData)[source-1] = i;
}
else if (source < 0)
{
pointMappedFromEdgeData[-source-1] = i;
}
pointSource.endEdit();
pointMappedFromPoint.endEdit();
pointMappedFromEdge.endEdit();
}
std::set<unsigned int> tetrasToRemove;
void swapInputPoints(int i1, int i2);
void removeInputPoints( const sofa::helper::vector<unsigned int>& tab );
void renumberInputPoints( const sofa::helper::vector<unsigned int>& tab );
void swapInputEdges(int i1, int i2);
void removeInputEdges( const sofa::helper::vector<unsigned int>& tab );
void swapInputTetras(int i1, int i2);
void removeInputTetras( const sofa::helper::vector<unsigned int>& tab );
};
} // namespace topology
} // namespace component
} // namespace sofa
#endif // SOFA_COMPONENT_TOPOLOGY_TETRA2TRIANGLETOPOLOGICALMAPPING_H
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