phasicFlow/src/Integration/AdamsBashforth5/AdamsBashforth5.hpp

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/*------------------------------- phasicFlow ---------------------------------
O C enter of
O O E ngineering and
O O M ultiscale modeling of
OOOOOOO F luid flow
------------------------------------------------------------------------------
Copyright (C): www.cemf.ir
email: hamid.r.norouzi AT gmail.com
------------------------------------------------------------------------------
Licence:
This file is part of phasicFlow code. It is a free software for simulating
granular and multiphase flows. You can redistribute it and/or modify it under
the terms of GNU General Public License v3 or any other later versions.
phasicFlow is distributed to help others in their research in the field of
granular and multiphase flows, but WITHOUT ANY WARRANTY; without even the
implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
-----------------------------------------------------------------------------*/
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#ifndef __AdamsBashforth5_hpp__
#define __AdamsBashforth5_hpp__
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#include "AdamsBashforth4.hpp"
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#include "pointFields.hpp"
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namespace pFlow
{
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/**
* Fifth order Adams-Bashforth integration method for solving ODE
*
* This is a one-step integration method and does not have prediction step.
*/
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class AdamsBashforth5
:
public AdamsBashforth4
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{
private:
friend class processorAB4BoundaryIntegration;
realx3PointField_D dy4_;
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protected:
const auto& dy4()const
{
return dy4_;
}
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auto& dy4()
{
return dy4_;
}
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public:
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/// Type info
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TypeInfo("AdamsBashforth5");
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// - Constructors
/// Construct from components
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AdamsBashforth5(
const word& baseName,
pointStructure& pStruct,
const word& method,
const realx3Field_D& initialValField,
bool keepHistory);
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/// Destructor
~AdamsBashforth5() override =default;
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/// Add a this to the virtual constructor table
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add_vCtor(
integration,
AdamsBashforth5,
word);
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// - Methods
void updateBoundariesSlaveToMasterIfRequested()override;
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/// return integration method
word method()const override
{
return "AdamsBashforth5";
}
bool correct(
real dt,
realx3PointField_D& y,
realx3PointField_D& dy,
real damping = 1.0) override;
bool correctPStruct(
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real dt,
pointStructure& pStruct,
realx3PointField_D& vel) override;
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};
/*template<typename activeFunctor>
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bool pFlow::AdamsBashforth5::intRange(
real dt,
realx3Vector_D& y,
realx3Vector_D& dy,
activeFunctor activeP )
{
auto d_dy = dy.deviceViewAll();
auto d_y = y.deviceViewAll();
auto d_history = history_.deviceViewAll();
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auto activeRng = activeP.activeRange();
Kokkos::parallel_for(
"AdamsBashforth5::correct",
rpIntegration (activeRng.first, activeRng.second),
LAMBDA_HD(int32 i){
if( activeP(i))
{
d_y[i] += dt*(
static_cast<real>(1901.0 / 720.0) * d_dy[i]
- static_cast<real>(2774.0 / 720.0) * d_history[i].dy1_
+ static_cast<real>(2616.0 / 720.0) * d_history[i].dy2_
- static_cast<real>(1274.0 / 720.0) * d_history[i].dy3_
+ static_cast<real>( 251.0 / 720.0) * d_history[i].dy4_
);
d_history[i] = {d_dy[i] ,d_history[i].dy1_, d_history[i].dy2_, d_history[i].dy3_};
}
});
Kokkos::fence();
return true;
}*/
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} // pFlow
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#endif //