186 lines
3.3 KiB
C++
186 lines
3.3 KiB
C++
/*------------------------------- phasicFlow ---------------------------------
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O C enter of
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O O E ngineering and
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O O M ultiscale modeling of
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OOOOOOO F luid flow
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------------------------------------------------------------------------------
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Copyright (C): www.cemf.ir
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email: hamid.r.norouzi AT gmail.com
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------------------------------------------------------------------------------
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Licence:
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This file is part of phasicFlow code. It is a free software for simulating
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granular and multiphase flows. You can redistribute it and/or modify it under
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the terms of GNU General Public License v3 or any other later versions.
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phasicFlow is distributed to help others in their research in the field of
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granular and multiphase flows, but WITHOUT ANY WARRANTY; without even the
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implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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-----------------------------------------------------------------------------*/
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#ifndef __DEMSystem_hpp__
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#define __DEMSystem_hpp__
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#include <vector>
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#include "types.hpp"
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#include "span.hpp"
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#include "box.hpp"
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#include "virtualConstructor.hpp"
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#include "uniquePtr.hpp"
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#include "systemControl.hpp"
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#include "readControlDict.hpp"
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namespace pFlow
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{
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class DEMSystem
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{
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protected:
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readControlDict ControlDict_;
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uniquePtr<systemControl> Control_ = nullptr;
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uniquePtr<Timers> timers_;
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public:
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TypeInfo("DEMSystem");
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DEMSystem(
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word demSystemName,
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const std::vector<box>& domains,
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int argc,
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char* argv[]);
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virtual ~DEMSystem();
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DEMSystem(const DEMSystem&)=delete;
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/// @brief no assignment
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DEMSystem& operator = (const DEMSystem&)=delete;
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create_vCtor(
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DEMSystem,
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word,
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(
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word demSystemName,
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const std::vector<box>& domains,
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int argc,
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char* argv[]
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),
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(
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demSystemName,
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domains,
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argc,
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argv
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));
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realx3 g()const
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{
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return Control_->g();
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}
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// methods
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auto& Control()
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{
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return Control_();
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}
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const auto& Control()const
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{
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return Control_();
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}
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auto inline constexpr usingDoulle()const
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{
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return pFlow::usingDouble__;
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}
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Timers& timers()
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{
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return Control_->timers();
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}
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virtual
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bool updateParticleDistribution(real extentFraction, const std::vector<box> domains) = 0;
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virtual
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int32 numParInDomain(int32 di)const = 0;
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virtual
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std::vector<int32> numParInDomains()const = 0;
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virtual
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span<const int32> parIndexInDomain(int32 domIndx)const = 0;
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virtual
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span<real> diameter() = 0;
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virtual
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span<real> courseGrainFactor() = 0;
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virtual
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span<realx3> acceleration()=0;
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virtual
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span<realx3> velocity() = 0;
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virtual
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span<realx3> position() = 0;
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virtual
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span<realx3> rAcceleration()=0;
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virtual
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span<realx3> rVelocity() = 0;
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virtual
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span<realx3> rPosition() = 0;
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virtual
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span<realx3> parFluidForce() = 0;
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virtual
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span<realx3> parFluidTorque() = 0;
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virtual
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bool sendFluidForceToDEM() = 0;
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virtual
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bool sendFluidTorqueToDEM() = 0;
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virtual
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real maxBounndingSphereSize()const = 0;
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virtual
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bool beforeIteration() = 0;
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virtual
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bool iterate(
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real upToTime,
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real timeToWrite,
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word timeName) = 0;
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virtual
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bool iterate(real upToTime) = 0;
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static
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uniquePtr<DEMSystem>
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create(
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word demSystemName,
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const std::vector<box>& domains,
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int argc,
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char* argv[]);
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};
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} // pFlow
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#endif // __DEMSystem_hpp__
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