/** * 粘性模型 */ #ifndef CFDSTRUCTDATASOLVERKVISLLMANAGER_H #define CFDSTRUCTDATASOLVERKVISLLMANAGER_H #include #include "CFDStructDataManager_global.h" #include "CFDStructDataManagerBase.h" class CUIConfig; class CFDSTRUCTDATAMANAGER_EXPORT CFDStructDataSolverKvislManager : public CFDStructDataManagerBase { Q_OBJECT public: explicit CFDStructDataSolverKvislManager(QObject *parent = nullptr); ~CFDStructDataSolverKvislManager(); CUIConfig* getParamUIConfig(); void saveDataToDom(rapidjson::Document &dom); private: // 生成无粘界面配置 CUIConfig* genInviscidUIConfig(); // 生成层流界面配置 CUIConfig* genLaminarUIConfig(); // 生成雷诺平均_S-A界面配置 CUIConfig* genRANSSAUIConfig(); // 生成雷诺平均_Menters's κ-ω界面配置 CUIConfig* genRANSUIMentersConfig(); // 生成雷诺平均_κ-ε界面配置 CUIConfig* genRANSKEUIConfig(); // 生成分离涡模拟_S-A界面配置 CUIConfig* genDESSAUIConfig(); // 生成分离涡模拟_Menters's κ-ω界面配置 CUIConfig* genDESMentersUIConfig(); // 生成约束大涡模拟_S-A界面配置 CUIConfig* genCLESUIConfig(); // 生成约束大涡模拟_Menters's κ-ω界面配置 CUIConfig* genCLESMentersUIConfig(); signals: private: //模型:0_无粘;1_层流;2_雷诺平均;3_分离涡模拟;4_约束大涡模拟; int m_Model = 0; //RNS模型:0_S-A(一方程);1_Menters's κ-ω(两方程);2_κ-ε(两方程); int m_RNSModel = 0; //S-A类型:0_standard;1_Edwards int m_SAType = 0; //κ-ω类型:0_standard int m_kwType = 0; //κ-ε类型:0_standard int m_keType = 0; //DES模型:0_DES;1_DDES;2_IDDES int m_DESModel = 0; CUIConfig* m_uiConfig = nullptr; }; #endif // CFDSTRUCTDATASOLVERKvislLMANAGER_H