PHengLEI-NCCR/CFD/Solver/include/Param_CFDSolver.h

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//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// PPPPP H H EEEEE N N GGGGG L EEEEE III +
// P P H H E NN N G L E I +
// PPPPP HHHHH EEEEE N N N G GG L EEEEE I +
// P H H E N N N G G L E I +
// P H H EEEEE N N GGGGG LLLLL EEEEE III +
//------------------------------------------------------------------------+
// Platform for Hybrid Engineering Simulation of Flows +
// China Aerodynamics Research and Development Center +
// (C) Copyright, Since 2010 +
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
//! @file Param_CFDSolver.h
//! @brief Record parameters of CFD Solver.
//! @author Bell, Zhang Jian, Wan Yunbo, Meng Liyuan.
#pragma once
#include "LIB_Macro.h"
#include "Precision.h"
namespace PHSPACE
{
class Param_CFDSolver
{
public:
LIB_EXPORT Param_CFDSolver();
LIB_EXPORT virtual ~Param_CFDSolver();
public:
//! Get restart flow file name.
virtual const string & GetRestartNSFile() const { return restartNSFile; }
//! Get res file name.
virtual const string & GetResSaveFile() const { return resSaveFile; }
//! Get flow field name.
virtual const string & GetFlowFieldTecFile() const { return flowFieldTecFile; };
//! Init all parameters.
LIB_EXPORT virtual void Init();
//! Get reference mach number.
RDouble GetRefMachNumber() const;
//! Get reference reynolds number.
RDouble GetRefReNumber() const;
//! Get the count backwards of reference reynolds number.
RDouble GetoRefReNumber() const;
//! Get if need plot volume field.
int GetPlotFieldType() const;
//! Get lower range of plotting field.
const RDouble * GetLowerPlotFieldBox() const;
//! Get upper range of plotting field.
const RDouble * GetUpperPlotFieldBox() const;
//! Get viscous model type.
int GetViscousType() const;
//! Get viscous model name
const string & GetViscousName() const;
//! Return the flow is viscous or not.
bool IsViscous() const;
//! Get if unsteady of steady.
int GetIsUnsteady() const;
//! Get interval steps of dumping residuals.
int GetIntervalStepRes() const;
//! Get interval steps of dumping flow field.
int GetIntervalStepPlot() const;
//! Get if using ALE method.
int GetIsCodeOfAleModel() const;
//! Get CFL when computing start.
RDouble GetCFLStart() const;
//! Get final CFL.
RDouble GetCFLEnd() const;
RDouble GetFineCFL() const;
RDouble GetPMax() const;
RDouble GetPMin() const;
RDouble GetDeltaMax() const;
RDouble GetMagnifyFactor() const;
RDouble GetReduceFactor() const;
//! The number of step when cfl increase from CFLStart to CFLEnd.
int GetCFLVaryStep() const;
//! Get number of MultiGrid level.
int GetNMGLevel() const;
//! Get LUSGS sweeps.
int GetNLUSGSSweeps() const;
//! Get tolerance of LUSGS scheme.
RDouble GetLUSGSTolerance() const;
int GetIntervalStepFlow() const;
int GetIfLocalTimeStep() const;
RDouble GetTorqueRefX() const;
RDouble GetTorqueRefY() const;
RDouble GetTorqueRefZ() const;
//! Get reference gama value.
RDouble GetRefGama() const;
//! Get reference dimensional density.
RDouble GetRefDimensionalPressure() const;
//! Get reference dimensional density.
RDouble GetRefDimensionalDensity() const;
//! Get reference dimensional velocity.
RDouble GetRefDimensionalVelocity() const;
//! Get reference dimensional sonic speed.
RDouble GetRefDimensionalSonicSpeed() const;
//! Get reference dimensional temperature.
RDouble GetRefDimensionalTemperature() const;
//! Get AusmpwPlusLimiter.
RDouble GetAusmpwPlusLimiter() const;
//! Get trTemperatureMin
RDouble GetTrTemperatureMinNonDim() const;
//! Get flag of starting from steady result.
int GetIfStartFromSteadyResults() const;
//! Get flag of statics flow field.
int GetIfStaticsFlowField() const;
//! Get flag of statics reynolds stress.
int GetIfStaticsReynoldsStress() const;
//! Get method of computing statistical reynolds stress.
int GetStatisticMethod() const;
int GetIsOverLapping() const;
RDouble GetSkewnessAngle() const;
//! Get parameter judge whether modify Wenn Scheme.
int GetWennSchemeFlag() const;
int GetnDiagonalModifiedTurb() const;
//! Get if carry out precondition or not.
int GetIfLowSpeedPrecon() const;
int GetnNumberOfSpeedStep() const;
int *GetSpeedVaryStep() const;
RDouble *GetSpeedVaryCoef() const;
int GetnNumberOfCFLStep() const;
int *GetCFLVaryMultiStep() const;
RDouble *GetCFLVaryCoef() const;
private:
string restartNSFile;
string resSaveFile;
string flowFieldTecFile;
RDouble refMachNumber;
RDouble refReNumber;
RDouble oRefReNumber;
int plotFieldType;
RDouble lowerPlotFieldBox[3];
RDouble upperPlotFieldBox[3];
int viscousType;
string viscousName;
int isUnsteady;
int intervalStepRes;
int intervalStepPlot;
int isAle;
RDouble CFLStart;
RDouble CFLEnd;
RDouble fineCFL;
int CFLVaryStep;
RDouble pMax, pMin, deltaMax, magnifyFactor, reduceFactor;
int nNumberOfSpeedStep;
int *speedVaryStep;
RDouble *speedVaryCoef;
int nNumberOfCFLStep;
int *CFLVaryMultiStep;
RDouble *CFLVaryCoef;
int nMGLevel;
int nLUSGSSweeps;
RDouble LUSGSTolerance;
RDouble refGama;
RDouble refDimensionalPressure;
RDouble refDimensionalDensity;
RDouble refDimensionalSonicSpeed;
RDouble refDimensionalTemperature;
RDouble refDimensionalVelocity;
RDouble AusmpwPlusLimiter;
RDouble trTemperatureMinNonDim;
int ifStartFromSteadyResults;
int ifStaticsFlowField;
int ifStaticsReynoldsStress;
int statisticMethod;
int intervalStepFlow;
int ifLocalTimeStep;
RDouble TorqueRefX;
RDouble TorqueRefY;
RDouble TorqueRefZ;
int isOverset;
int isWennScheme;
RDouble skewnessAngle;
int nDiagonalModifiedTurb;
//! For incompressible flow (mach < 0.3), using precondition method or not.
int ifLowSpeedPrecon;
};
#include "Param_CFDSolver.hxx"
}