PHengLEI-NCCR/CFD/SpecDiffHybSolver/include/SpecSolver.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      SpecSolver.h
//! @brief     Solver of Fourier-Spectral method.
//! @author    Zhang Zipei.

#pragma once

#include "TypeDefine.h"
#include "Complex.h"
#include "LIB_Macro.h"
#include "Param_SpecSolver.h"
#include "SpecDiffHybGrid.h"
#include "Spectrum.h"
#include "SpecGrid.h"
#include "RescaleField.h"
#include "Statistics.h"
#include "LES.h"

using namespace std;

namespace PHSPACE
{
class Param_SpecSolver;
//class SpecDiffHybGrid;

class SpecSolver
{
public:
    SpecSolver();
    ~SpecSolver();

protected:
    RDouble1D *nonlinearTermCoef, *pressureGradientTermCoef;
    Complex4D *convectiveTerm, *complexLaplacianVelocityTerm;
    Complex5D *complexPressureGradientTerm;

    Complex4D *complexViscousTerm, *complexNonlinearTerm, *complexVelocityGradient, *complexVelocitySquare;
    RDouble4D *realVelocityGradient, *realVelocitySquare;

    Complex3D *complexU, *complexV, *complexW, *complexP, *complexDivergenceU;

    RDouble3D *realnut3d;

    RDouble1D *ek3DInit, *ek3D;

    string nonlinearTermFile, nonlinearTermBackupFile;
    string pressureGradientTermFile, pressureGradientTermBackupFile;
    string laplacianVelocityTermFile, laplacianVelocityTermBackupFile;
    string timeInformationRestartFile;

    string velocityRestartFile, velocityBackupFile;
    string pressureRestartFile, pressureBackupFile;
    string velocityNameFile, fieldNameFile;

    bool IsConvectiveTermFailed;

private:
    RDouble realnut;

public:
    LIB_EXPORT Param_SpecSolver * GetControlParameters() const;

    void Run();

    virtual const string GetResidualFileName();

    SpecGrid *GetGrid();

private:
    void Init();

    void AllocTimeDependentData();

    void InitGlobal();

    //void ReadConvectiveTerm();
    //void ReadTimeDependentInformation();

    void Solve();
    //void RescaleVelocityField(const int);
    //void GetVelocityGradient();
    //void GetNonlinearTerm();
    //void GetViscousTerm();
    //void InitFieldData();

    //void AllocFieldData();
    //void GetInitField();
    //void InitFieldFileName();
    //void WriteVelocityName();
    //void InitProfile();
    //void InitFromOldField();
    //void OutputFieldRestartFile(const int);
    //void GetAssumedSpectrum( const double, const double, double & );
    //void GetAssumedSpectrumNearWall( const double, const double, double & );
    //void ReadinVelocityRestartFile();
    //void ReadinPressureRestartFile();
    //void WriteVelocityRestartFile(const string);
    //void WritePressureRestartFile(const string);
    //void SetInitTimeDataCoef();
    //void SetTimeDataCoef();
    //void VanishingDIVproj();
    //void OutputFieldName();
    //void GetStatistics();
    //void OutputResidual(const int);
    //void OutputRestartData(const int);
    //void OutputOldTimeData(const int);
    //void WriteConvectiveTerm(const string);
    //void WriteTimeDependentInformation();
    //void mode00fix();
    RescaleFieldHIT * GetRescaleFieldData();

    void SetRescaleFieldData(RescaleFieldHIT *RescaleFieldData);

    Spectrum * GetSpectrumData();

    void SetSpectrumData(Spectrum *SpectrumData);

    LESHIT * GetLESData();

    void SetLESData(LESHIT *LESData);

    StatisticsHIT *GetStatisticData();

    void SetStatisticData(StatisticsHIT *StatisticData);

    void NormVector(RDouble *vec1, RDouble *vec2, int ndim);

    void GetAssumedSpectrum(RDouble modk, RDouble &ek);

    void GetCBCSpectrum(RDouble modk, RDouble &ek);

    static void Splint(RDouble *xa, RDouble *ya, RDouble *y2a, int n, RDouble x, RDouble &y);

    void InitPressure();

    void GetEkAll(RDouble1D *ek3D, int nMax);

    void GetInitSpectrum();

    void GetGradientVector(PHComplex *var, PHComplex *dVardX, PHComplex *dVardY, PHComplex *dVardZ);

    void GetDivergence(PHComplex *vecX, PHComplex *vecY, PHComplex *vecZ, Complex3D *divVar);

protected:
    virtual void FreeControlParameters();

    virtual void InitControlParameters();

    virtual bool JudgeIfRestart();

    void SetGrid(SpecGrid *GridData);

    void InitSpectrumData();

    virtual void InitGridData();

    virtual void InitTimeDependentData();

    virtual void InitTimeDependentFileName();

    virtual void SetInitTimeDataCoef();

    virtual void SetTimeDataCoef();

    virtual void InitFieldData();

    virtual void InitFieldFileName();

    virtual void AllocFieldData();

    virtual void GetInitField();

    virtual void WriteVelocityName();

    virtual void InitProfile();

    virtual void InitLESData();

    virtual void InitStatisticsData();

    virtual void InitRescaleData();

    virtual void InitFromOldField();

    virtual void ReadinVelocityRestartFile();

    virtual void ReadinPressureRestartFile();

    virtual void OutputFieldRestartFile();

    virtual void WriteVelocityRestartFile(const string velocityFileName);

    virtual void WritePressureRestartFile(const string pressureFileName);

    virtual void InputOldTimeData();

    virtual void ReadConvectiveTerm();

    virtual void ReadTimeDependentInformation();

    virtual void OutputFieldName();

    virtual void GetRHS();

    virtual void GetVelocityGradient();

    virtual void GetNonlinearTerm();

    virtual void RescaleVelocityField(const int nstep);

    virtual void GetStatistics();

    virtual void OutputResidual();

    void FillActionKey(ActionKey *actkey, int action, const int level);

    virtual void DumpRes(ActionKey *actkey);

    virtual void PrepareFormatedResidual(string &formatRes);

    virtual void OutputRestartData();

    virtual void OutputOldTimeData();

    virtual void WriteConvectiveTerm(const string);

    virtual void WriteTimeDependentInformation();

    virtual void OutputStatisticVisual();

    virtual void DeAllocateGlobalVariables();

private:
    class Spectrum * SpectrumData;

    class SpecGrid * GridData;

    class RescaleFieldHIT * RescaleFieldData;

    class StatisticsHIT * StatisticData;

    class LESHIT * LESData;

protected:
    Param_SpecSolver *controlParameters;

};

#include "SpecSolver.hxx"

}
Initial commit 2024-10-14 09:32:17 +08:00			`//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++`
			`// 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 SpecSolver.h`
			`//! @brief Solver of Fourier-Spectral method.`
			`//! @author Zhang Zipei.`

			`#pragma once`

			`#include "TypeDefine.h"`
			`#include "Complex.h"`
			`#include "LIB_Macro.h"`
			`#include "Param_SpecSolver.h"`
			`#include "SpecDiffHybGrid.h"`
			`#include "Spectrum.h"`
			`#include "SpecGrid.h"`
			`#include "RescaleField.h"`
			`#include "Statistics.h"`
			`#include "LES.h"`

			`using namespace std;`

			`namespace PHSPACE`
			`{`
			`class Param_SpecSolver;`
			`//class SpecDiffHybGrid;`

			`class SpecSolver`
			`{`
			`public:`
			`SpecSolver();`
			`~SpecSolver();`

			`protected:`
			`RDouble1D nonlinearTermCoef, pressureGradientTermCoef;`
			`Complex4D convectiveTerm, complexLaplacianVelocityTerm;`
			`Complex5D *complexPressureGradientTerm;`

			`Complex4D complexViscousTerm, complexNonlinearTerm, complexVelocityGradient, complexVelocitySquare;`
			`RDouble4D realVelocityGradient, realVelocitySquare;`

			`Complex3D complexU, complexV, complexW, complexP, *complexDivergenceU;`

			`RDouble3D *realnut3d;`

			`RDouble1D ek3DInit, ek3D;`

			`string nonlinearTermFile, nonlinearTermBackupFile;`
			`string pressureGradientTermFile, pressureGradientTermBackupFile;`
			`string laplacianVelocityTermFile, laplacianVelocityTermBackupFile;`
			`string timeInformationRestartFile;`

			`string velocityRestartFile, velocityBackupFile;`
			`string pressureRestartFile, pressureBackupFile;`
			`string velocityNameFile, fieldNameFile;`

			`bool IsConvectiveTermFailed;`

			`private:`
			`RDouble realnut;`

			`public:`
			`LIB_EXPORT Param_SpecSolver * GetControlParameters() const;`

			`void Run();`

			`virtual const string GetResidualFileName();`

			`SpecGrid *GetGrid();`

			`private:`
			`void Init();`

			`void AllocTimeDependentData();`

			`void InitGlobal();`

			`//void ReadConvectiveTerm();`
			`//void ReadTimeDependentInformation();`

			`void Solve();`
			`//void RescaleVelocityField(const int);`
			`//void GetVelocityGradient();`
			`//void GetNonlinearTerm();`
			`//void GetViscousTerm();`
			`//void InitFieldData();`

			`//void AllocFieldData();`
			`//void GetInitField();`
			`//void InitFieldFileName();`
			`//void WriteVelocityName();`
			`//void InitProfile();`
			`//void InitFromOldField();`
			`//void OutputFieldRestartFile(const int);`
			`//void GetAssumedSpectrum( const double, const double, double & );`
			`//void GetAssumedSpectrumNearWall( const double, const double, double & );`
			`//void ReadinVelocityRestartFile();`
			`//void ReadinPressureRestartFile();`
			`//void WriteVelocityRestartFile(const string);`
			`//void WritePressureRestartFile(const string);`
			`//void SetInitTimeDataCoef();`
			`//void SetTimeDataCoef();`
			`//void VanishingDIVproj();`
			`//void OutputFieldName();`
			`//void GetStatistics();`
			`//void OutputResidual(const int);`
			`//void OutputRestartData(const int);`
			`//void OutputOldTimeData(const int);`
			`//void WriteConvectiveTerm(const string);`
			`//void WriteTimeDependentInformation();`
			`//void mode00fix();`
			`RescaleFieldHIT * GetRescaleFieldData();`

			`void SetRescaleFieldData(RescaleFieldHIT *RescaleFieldData);`

			`Spectrum * GetSpectrumData();`

			`void SetSpectrumData(Spectrum *SpectrumData);`

			`LESHIT * GetLESData();`

			`void SetLESData(LESHIT *LESData);`

			`StatisticsHIT *GetStatisticData();`

			`void SetStatisticData(StatisticsHIT *StatisticData);`

			`void NormVector(RDouble vec1, RDouble vec2, int ndim);`

			`void GetAssumedSpectrum(RDouble modk, RDouble &ek);`

			`void GetCBCSpectrum(RDouble modk, RDouble &ek);`

			`static void Splint(RDouble xa, RDouble ya, RDouble *y2a, int n, RDouble x, RDouble &y);`

			`void InitPressure();`

			`void GetEkAll(RDouble1D *ek3D, int nMax);`

			`void GetInitSpectrum();`

			`void GetGradientVector(PHComplex var, PHComplex dVardX, PHComplex dVardY, PHComplex dVardZ);`

			`void GetDivergence(PHComplex vecX, PHComplex vecY, PHComplex vecZ, Complex3D divVar);`

			`protected:`
			`virtual void FreeControlParameters();`

			`virtual void InitControlParameters();`

			`virtual bool JudgeIfRestart();`

			`void SetGrid(SpecGrid *GridData);`

			`void InitSpectrumData();`

			`virtual void InitGridData();`

			`virtual void InitTimeDependentData();`

			`virtual void InitTimeDependentFileName();`

			`virtual void SetInitTimeDataCoef();`

			`virtual void SetTimeDataCoef();`

			`virtual void InitFieldData();`

			`virtual void InitFieldFileName();`

			`virtual void AllocFieldData();`

			`virtual void GetInitField();`

			`virtual void WriteVelocityName();`

			`virtual void InitProfile();`

			`virtual void InitLESData();`

			`virtual void InitStatisticsData();`

			`virtual void InitRescaleData();`

			`virtual void InitFromOldField();`

			`virtual void ReadinVelocityRestartFile();`

			`virtual void ReadinPressureRestartFile();`

			`virtual void OutputFieldRestartFile();`

			`virtual void WriteVelocityRestartFile(const string velocityFileName);`

			`virtual void WritePressureRestartFile(const string pressureFileName);`

			`virtual void InputOldTimeData();`

			`virtual void ReadConvectiveTerm();`

			`virtual void ReadTimeDependentInformation();`

			`virtual void OutputFieldName();`

			`virtual void GetRHS();`

			`virtual void GetVelocityGradient();`

			`virtual void GetNonlinearTerm();`

			`virtual void RescaleVelocityField(const int nstep);`

			`virtual void GetStatistics();`

			`virtual void OutputResidual();`

			`void FillActionKey(ActionKey *actkey, int action, const int level);`

			`virtual void DumpRes(ActionKey *actkey);`

			`virtual void PrepareFormatedResidual(string &formatRes);`

			`virtual void OutputRestartData();`

			`virtual void OutputOldTimeData();`

			`virtual void WriteConvectiveTerm(const string);`

			`virtual void WriteTimeDependentInformation();`

			`virtual void OutputStatisticVisual();`

			`virtual void DeAllocateGlobalVariables();`

			`private:`
			`class Spectrum * SpectrumData;`

			`class SpecGrid * GridData;`

			`class RescaleFieldHIT * RescaleFieldData;`

			`class StatisticsHIT * StatisticData;`

			`class LESHIT * LESData;`

			`protected:`
			`Param_SpecSolver *controlParameters;`

			`};`

			`#include "SpecSolver.hxx"`

			`}`