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/////////////////////////////////////////////////////////////
// //
// Copyright (c) 2003-2017 by The University of Queensland //
// Centre for Geoscience Computing //
// http://earth.uq.edu.au/centre-geoscience-computing //
// //
// Primary Business: Brisbane, Queensland, Australia //
// Licensed under the Open Software License version 3.0 //
// http://www.apache.org/licenses/LICENSE-2.0 //
// //
/////////////////////////////////////////////////////////////
#ifndef __ASUBLATTICE_H
#define __ASUBLATTICE_H
// -- project includes --
#include "Model/EWallInteractionGroup.h"
#include "Model/BWallInteractionGroup.h"
#include "Model/SoftBWallInteractionGroup.h"
#include "Model/ViscWallIG.h"
#include "Parallel/CheckPointable.h"
#include "Foundation/vec3.h"
// -- system includes --
#include <string>
#include <utility>
using std::string;
class MpiWTimers;
class TML_Comm;
/*!
\brief Abstract base class for sublattices.
*/
class ASubLattice : public esys::lsm::CheckPointable
{
private:
std::string m_particleType;
protected:
// -- neighbortable --
public:
typedef std::pair<int,int> ParticleIdPair;
typedef std::vector<ParticleIdPair> ParticleIdPairVector;
typedef std::vector<int> IdVector;
virtual ~ASubLattice();
void setNTSize(int);
virtual void setParticleType(const std::string &particleType)
{
m_particleType = particleType;
}
virtual const std::string &getParticleType() const
{
return m_particleType;
}
/****fluid contents: begin***/
virtual void addFluidInteraction()=0;
virtual void updateFluid()=0;
virtual void exchangeCells()=0;
virtual void sendCoeffi()=0;
virtual void recvPressure()=0;
virtual void solveMatrix()=0;
/****fluid contents: end***/
virtual void setTimeStepSize(double dt) = 0;
virtual vector<int> getCommCoords() const=0;
virtual vector<int> getCommDims() const=0;
virtual void receiveParticles()=0;
virtual void receiveConnections()=0;
virtual void addWall()=0;
virtual void addElasticWIG()=0;
virtual void addBondedWIG()=0;
virtual void addDirBondedWIG()=0;
virtual void addViscWIG()=0;
virtual void addTaggedElasticWIG()=0;
virtual void initNeighborTable(const Vec3&,const Vec3&)=0;
virtual void initNeighborTable(const Vec3&,const Vec3&,const vector<bool>&)=0;
virtual void addPairIG()=0;
virtual void addTaggedPairIG()=0;
virtual void addTriMesh()=0;
virtual void addTriMeshIG()=0;
virtual void addBondedTriMeshIG()=0;
virtual void addMesh2D()=0;
virtual void addMesh2DIG()=0;
virtual void addBondedMesh2DIG()=0;
virtual void addSingleIG()=0;
virtual void addBondedIG()=0;
virtual void addCappedBondedIG()=0;
virtual void addShortBondedIG()=0;
virtual void addRotBondedIG()=0;
virtual void addBrittleBeamSCIG()=0;
virtual void addRotThermBondedIG()=0;
virtual void addDamping()=0;
//virtual void addRotDamping()=0;
virtual void setExIG()=0;
virtual void initComplex();
virtual void removeIG()=0;
virtual void getWallPos()=0;
virtual void getWallForce()=0;
virtual void addSphereBody()=0;
virtual void addESphereBodyIG()=0;
virtual void getSphereBodyPos()=0;
virtual void getSphereBodyForce()=0;
virtual const MPI_Comm &getWorkerComm() const = 0;
virtual void rebuildParticleArray()=0;
virtual void rebuildInteractions()=0;
virtual void searchNeighbors()=0;
virtual void checkNeighbors()=0;
virtual void updateInteractions()=0;
virtual int getNumParticles() = 0;
virtual std::pair<double, int> findParticleNearestTo(const Vec3 &pt) = 0;
virtual std::pair<int, Vec3> getParticlePosn(int particleId) = 0;
// virtual ParticleIdPairVector getBondGroupIdPairs(const std::string &groupName) = 0;
virtual void oneStep()=0;
virtual void exchangePos()=0;
// moving stuff around
virtual void moveParticleTo()=0;
virtual void moveTaggedParticlesBy() = 0;
virtual void moveSingleParticleTo(int particleId, const Vec3 &posn)=0;
virtual void moveWallBy()=0;
virtual void moveSphereBodyBy()=0;
virtual void setWallNormal()=0;
virtual void applyForceToWall()=0;
virtual void setVelocityOfWall()=0;
virtual void setParticleVelocity()=0;
virtual void setParticleDensity()=0;
virtual void setTaggedParticleVel()=0;
virtual void setParticleAngularVelocity(){};
virtual void setParticleNonDynamic()=0;
virtual void setParticleNonRot()=0;
virtual void tagParticleNearestTo()=0;
virtual void moveSingleNode()=0;
virtual void moveTaggedNodes()=0;
virtual void translateMeshBy(const std::string &meshName, const Vec3 &translation)=0;
virtual void setTimer(MpiWTimers &timers) = 0;
virtual void do2dCalculations(bool do2d) = 0;
// --- setting interaction parameters during a simulation ---
virtual void setInteractionParameter() = 0;
// field functions
virtual void countParticles()=0;
// "new" field functions
virtual void addScalarParticleField()=0;
virtual void addVectorParticleField()=0;
virtual void addScalarInteractionField()=0;
virtual void addScalarHistoryInteractionField()=0;
virtual void addVectorInteractionField()=0;
virtual void addVectorTriangleField()=0;
virtual void addScalarTriangleField()=0;
virtual void sendFieldData()=0;
virtual void addVectorWallField()=0;
/****fluid contents: begin***/
virtual void addScalarFluidField()=0;
virtual void addVectorFluidField()=0;
virtual void addScalarFluidInteractionField()=0;
virtual void addVectorFluidInteractionField()=0;
/****fluid contents: end***/
// output
virtual void printStruct()=0;
virtual void printData()=0;
virtual void printTimes()=0;
// -- mesh data exchange --
virtual void getMeshNodeRef()=0;
virtual void getMeshFaceRef()=0;
virtual void getMesh2DStress()=0;
virtual void getTriMeshForce()=0;
virtual void getParticleData(const IdVector &particleIdVector)=0;
// checkpointing
virtual void loadCheckPointData(std::istream&){};
};
#endif //__ASUBLATTICE_H
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