180 lines
3.2 KiB
C++
180 lines
3.2 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 __processField_hpp__
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#define __processField_hpp__
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#include "virtualConstructor.hpp"
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#include "dictionary.hpp"
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#include "readFromTimeFolder.hpp"
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#include "includeMask.hpp"
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#include "pointRectCell.hpp"
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namespace pFlow
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{
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class repository;
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class processField
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{
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protected:
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dictionary dict_;
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pointRectCell& pointToCell_;
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mutable readFromTimeFolder timeFolder_;
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word processedFieldName_;
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word fieldName_;
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word fieldType_;
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word operation_;
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word includeMaskType_;
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int32 threshold_ = 1;
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uniquePtr<includeMask> includeMask_ = nullptr;
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bool static getFieldType(
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const dictionary& dict,
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readFromTimeFolder& timeFolder,
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word& fieldName,
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word& fieldType);
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public:
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TypeInfo("processField");
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processField(const dictionary& dict, pointRectCell& pToCell, repository& rep);
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virtual ~processField() = default;
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create_vCtor(
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processField,
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dictionary,
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(const dictionary& dict,
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pointRectCell& pToCell,
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repository& rep),
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(dict, pToCell, rep) );
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const auto& mesh()const
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{
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return pointToCell_.mesh();
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}
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auto& mesh()
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{
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return pointToCell_.mesh();
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}
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const auto& pointToCell()const
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{
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return pointToCell_;
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}
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auto& pointToCell()
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{
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return pointToCell_;
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}
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auto& dict()
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{
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return dict_;
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}
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const auto& dict()const
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{
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return dict_;
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}
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auto& timeFolderRepository()
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{
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return timeFolder_.db();
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}
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auto& processedRepository()
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{
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return pointToCell_.processedRepository();
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}
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const word& fieldType()const
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{
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return fieldType_;
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}
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const word& fieldName()const
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{
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return fieldName_;
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}
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bool isUniform()const
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{
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return fieldName_ == "uniformField";
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}
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const word& operation()const
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{
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return operation_;
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}
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auto& timeFolder()
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{
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return timeFolder_;
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}
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const word& includeMaskType()const
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{
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return includeMaskType_;
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}
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auto threshold()const
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{
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return threshold_;
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}
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const word& processedFieldName()const
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{
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return processedFieldName_;
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}
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// requires a class to read pointField from timefolder
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virtual bool process() = 0;
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virtual bool writeToVTK(iOstream& is) const = 0;
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static
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uniquePtr<processField> create(
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const dictionary& dict,
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pointRectCell& pToCell,
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repository& rep);
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};
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}
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#endif //__processField_hpp__
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