ThermalParticle.cc

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//Copyright (c) 2013-2014, The MercuryDPM Developers Team. All rights reserved.
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#include <Species/LinearViscoelasticSpecies.h>
#include "InteractionHandler.h"
#include "Particles/ThermalParticle.h"
#include "Interactions/BaseInteraction.h"
#include "Species/ParticleSpecies.h"
#include "ParticleHandler.h"
#include "DPMBase.h"

ThermalParticle::ThermalParticle()
{
    temperature_ = 0;
}

ThermalParticle::ThermalParticle(const ThermalParticle &p)
        : BaseParticle(p)
{
    temperature_ = p.temperature_;
}

ThermalParticle::~ThermalParticle()
{
}

ThermalParticle* ThermalParticle::copy() const
{
    return new ThermalParticle(*this);
}

void ThermalParticle::write(std::ostream& os) const
{
    BaseParticle::write(os);
    os << " temperature " << temperature_;
}

std::string ThermalParticle::getName() const
{
    return "ThermalParticle";
}

//todo Does mass and interaction radius change when a liquid film is added?

void ThermalParticle::read(std::istream& is)
{
    BaseParticle::read(is);
    std::string dummy;
    is >> dummy >> temperature_;
}

Mdouble ThermalParticle::getTemperature() const
{
    return temperature_;
}
    
void ThermalParticle::setTemperature(Mdouble temperature)
{
    temperature_=temperature;
}

void ThermalParticle::addTemperature(Mdouble temperature)
{
    temperature_+=temperature;
}

//void ThermalParticle::addThermalEnergy(Mdouble energy)
//{
//    temperature_+=energy/getMass()/getSpecies();
//}