#pragma once #include // 对于一些原先代码,尽管不再启用,但有时候需要看一下,即可放开该定义方便查看 //#define _SCAN_OLD_CODE_ 1 #define _isLimitedDouble zxMathBase::isLimitedValue // 对应四个选项,井储、井模型、油藏模型、边界类型 #define _oWbsType m_pModelOption->m_oWbsType #define _oWelType m_pModelOption->m_oWelType #define _oResType m_pModelOption->m_oResType #define _oBdyType m_pModelOption->m_oBdyType #define _oWft m_pModelOption->m_oWft #define _oMst m_pModelOption->m_oMst #define _oAssistType m_pModelOption->getAssistType() // 大的模型分类,导航中选定 enum ModelSeriesType { MST_LP = 0, //低渗透 MST_HW, //水平井 MST_SR, //特殊油藏 MST_PF, //聚合物 // MST_XD, //wxd // MST_XA, //XA MST_UNKNOWN }; // 特征点/线 enum eCharactType { CT_POINT = 0, //特征线类型 CT_LINE, //特征点类型 CT_UNKNOW }; // 井流体性质,油气水井 enum WellFluidType { WFT_NULL = 0, //什么都没有选,这个时候不能下一步 WFT_Oil = 1, //油井 或油相 WFT_Gas = 2, //气井 或气相 WFT_Water = 4, //水井 或水相 WFT_Condense = 8, //凝析油气 WFT_PF = 16, //聚合物 WFT_CO2 = 32, //CO2 WFT_Oil_Gas = 3, //1+2 WFT_Oil_Water = 5, //1+4 WFT_Gas_Water = 6, //2+4 WFT_Condense_Water =12, //8+4 WTF_Oil_Gas_Water = 7, //1+2+4 WTF_PF_Water = 20, //16+4 WTF_Co2_Water = 36, //32+4 WFT_UNKNOWN }; #define PvtFluidType WellFluidType // Pvt流体大的分类 enum PvtFluidClass { PFC_Common = 0, //常规 PFC_Special, //特殊 PFC_StateEquation, //状态方程 PFC_UNKNOWN }; // 井型,直井水平井等 enum WellOrientType { WOT_Vert = 0, //直井 WOT_Hori, //水平井 WOT_UNKNOWN }; enum m_Wbs_Type { WBST_Fixed = 0, //定井储 WBST_None = 1, //无井储 WBST_Fair = 2, //变井储(Fair) WBST_Hegeman = 3, //变井储(Hegeman) WBST_SpiveyPacker = 4, //变井储(Spivey Packer) WBST_SpiveyFissures = 5 //变井储(Spivey Fissures) }; enum m_Wel_Type { WT_V = 100, //直井 WT_PCL = 101, //直井(部分射开) WT_PUF = 102, //压裂直井(均匀流量) WT_PCI = 103, //压裂直井(无限导流) WT_PCFL = 104, //压裂直井(有限导流)(三线性流) WT_PCFR = 105, //压裂直井(有限导流)(拟径向流) WT_PCFF = 106, //压裂直井(有限导流)(快) WT_PC2 = 107, //压裂井——两段产液 WT_PC3 = 108, //压裂井——三段产液 WT_PCF2 = 109, //压裂直井(有限导流)-两段 WT_H = 200, //水平井 WT_HPOSSRC = 201, //水平井点源模型 WT_HSL2 = 202, //水平井两段产液 WT_HSL2BotWater = 203, //水平井两段产液(底水) WT_HSL3 = 204, //水平井三段产液 WT_HSL3BotWater = 205, //水平井三段产液(底水) WT_PFCM = 206, //水平井多级压裂 WT_PICM = 207, //水平井多级裂分段产液 WT_DEV = 300, //斜井 //王晓东教授 WT_WXD_PCL = 600, //直接有限导流4 WT_WXD_V = 601, //普通直井 //西安林加恩教授 WT_LJE_HMGEN = 700, //西安测试 WT_OTHER_GRID = 998, //网格划分,权宜之计 WT_NONE = 999 }; enum m_Res_Type { // 常规 RT_HMGE = 100, //均质油藏 RT_HMGE_EX = 101, //均质油藏(扩展),baiwp算法 RT_DUALPRO_PS = 102, //双重孔隙——拟稳态 RT_DUALPRO_PLA = 103, //双重孔隙——不稳态板状介质 RT_DUALPRO_BAL = 104, //双重孔隙——不稳态球形介质 RT_DUALPRO_CYL = 105, //双重孔隙——不稳态圆柱形介质 RT_DUALPER = 106, //双重渗透 RT_COMP2 = 107, //双区复合 RT_COMP3 = 108, //三区复合 RT_MedComp12 = 200, //多重介质径向复合(内1外2) RT_MedComp13 = 201, //多重介质径向复合(内1外3) RT_MedComp22 = 202, //多重介质径向复合(内2外2) RT_MedComp23 = 203, //多重介质径向复合(内2外3) RT_MedComp33 = 204, //多重介质径向复合(内3外3) RT_TLC_None = 205, //双层无越流 RT_TLC_NoneEx = 206, //双层无越流(封闭) RT_TLC_Common = 207, //双层越流 RT_TLC_Comp = 208, //双层越流径向复合 RT_MULTILAYER_P = 209, //双层压裂 RT_HMGENWt = 210, //均质油藏(水井) RT_LINEAR_COMP = 211, //线性复合 // 水平井 // RT_HMGE = 100, //均质油藏,注释表示前面已经定义,下同 // RT_DUALPRO_PS = 102, //双重孔隙——拟稳态 RT_DUALPRO_POSSRC = 300, //双重孔隙(点源) // RT_DUALPER = 106, //双重渗透 // RT_COMP2 = 107, //双区复合 // RT_COMP3 = 108, //三区复合 // RT_LINEAR_COMP = 211, //线性复合 // 特殊油气藏 // RT_HMGE = 100, //均质油藏,注释表示前面已经定义,下同 // RT_HMGE_EX = 101, //均质油藏(扩展),baiwp算法 // RT_DUALPRO_PS = 102, //双重孔隙——拟稳态 // RT_COMP2 = 107, //双区复合 // RT_COMP3 = 108, //三区复合 RT_SR_COMP = 350, //径向复合,就是双区 // 其他废弃 // RT_SR_HMGE, //均质油藏 // RT_DUALPRO, //双重孔隙 就是拟稳态 RT_SR_CONDENSE_COMP2 = 398, //凝析气两区复合 RT_SR_CONDENSE_COMP3 = 399, //凝析气三区复合 // 聚合物(后续进行考虑) RT_HMGEN = 400, //均质油藏(非牛顿) RT_COMP2ONN = 401, //双区复合(非牛顿-牛顿) RT_COMP2NON = 402, //双区复合(牛顿-非牛顿) RT_FLOW2 = 403, //双层窜流 RT_FLOW3 = 404, //三层窜流 RT_FLOW2COM2ONN = 405, //双层窜流复合(非牛顿-牛顿) RT_FLOW2COM2NON = 406, //双层窜流复合(牛顿-非牛顿) RT_BIGPORE = 407, //大孔道油藏 RT_INTERFERENCE = 408, //井间干扰,该项比较特殊,需要根据checkbox进行动态调整 RT_FRACT = 409, // //王晓东教授 RT_WXD_LINEPS = 600, //垂直裂缝线源解 RT_WXD_HMGE = 601, //普通直井 //西安林加恩教授 RT_LJE_HMGEN = 700, //西安测试 RT_NONE = 999 }; enum m_Bdy_Type { BT_NONE = 0, //无限大 BT_ONE = 1, //一条边界 BT_PARALL = 2, //平行边界 BT_TCROSS = 3, //三条垂直边界 BT_CROSS = 4, //交叉边界 BT_Circle = 5, //圆形边界 BT_RECT = 6 //矩形边界 // BT_BotWater //底水边界 }; enum m_Assist_Type { ASST_PG = 0, //启动压力梯度 ASST_DK, //动态渗透率 ASST_SS, //小信号 ASST_AP, //吸附系数 //临时 ASST_INTER, //考虑井间干扰 ASST_FRACT, //考虑压裂井 // SR ASST_SSST, //StressSensitive应力敏感 ASST_NONE }; //模型源码来源 enum AlgModelSrc { AMS_Inner = 0, //内部,石大北京程时清教授团队 AMS_Wxd = 600, //王晓东教授团队:(井型 600 开始 或者 储层类型 600开始) AMS_Lje = 700, //西安林教授团队:(井型 700 开始 或者 储层类型 700开始) AMS_Ludt = 800, //科大卢老师团队:(井型 800 开始 或者 储层类型 800开始) AMS_Lidl = 900, //合肥工大李老师团队:(井型 900 开始 或者 储层类型 900开始) AMS_UNKNOWN }; //是否第一次运行(这个参数的主要意义是一些基础参数 //再运行的过程中提取出来,下次比如拟合的过程中不需要重复的去计算) enum AlgCalMode { ACM_FitModel = 0, //模型生成 ACM_FitAuto, //自动拟合 ACM_FitPlate, //图版拟合 ACM_FitModelAfterAuto, //自动拟合之后再次模型生成 ACM_UNKNOWN }; enum Fit_Type { FT_Model = 0, //常规生成模型,其实不属于拟合 FT_Auto, //自动拟合 FT_Plate, //图版拟合 FT_Anal, //试井设计 FT_Unknown }; enum Fit_Method { FM_GaussNewton = 0, //高斯牛顿 FM_GaussNewtonEx, //归一化高斯牛顿 FM_Genetic, //遗传算法 FM_ParticleSwarm, //粒子群算法(Particle Swarm Optimization) FM_Unknown }; // 结构体,对应拟合参数的设置 struct zxFitParaInfo { QString fpiName; //拟合参数名称,英文标识,如"S" double fpiValue;//参数值 double fpiMax; //参数最大值 double fpiMin; //参数最小值 QString fpiUnit; //参数单位 bool fpiChecked;//参数是否启用拟合(即前面是否打上√) }; // 井型,直井水平井等 #define s_Wot_Vert QStringCH("直井") #define s_Wot_Hori QStringCH("水平井") //压力导数曲线(实际) #define s_Souce_Curve "Souce" #define s_Deriv_Curve "Deriv" #define s_SmallSig_Curve "SmallSig" #define s_Ppd_Curve "Ppd" #define s_Deriv_NoOverlay_Curve "NoOverlay_Deriv" //压力导数曲线(理论) #define s_TheorySouce_Curve "TheorySouce" #define s_TheoryDeriv_Curve "TheoryDeriv" //带叠加原理 #define s_TheorySmallSig_Curve "TheorySmallSig" #define s_TheoryPpd_Curve "TheoryPpd" #define s_TheoryDeriv_NoOverlay_Curve "NoOverlay_TheoryDeriv" //无叠加原理 //历史曲线 #define s_HistorySouce_CurveP "HistorySouce" #define s_HistoryFit_CurveP "HistoryFit" //历史曲线增加流量显示 #define s_HistorySouce_CurveF "HistorySouceF" // #define s_SemiSouce_Curve "SemiSouce" #define s_SemiTheorySouce_Curve "SemiTheorySouce" #define s_Ipr_Source "IprSource" #define s_Ipr_Fit "IprFit" #define s_Ipr_FitEx "IprFitEx" #define s_Ipr_Result "IprResult" #define s_Ipr_ResultEx "IprResultEx" #define s_Tag_HomoModel QStringCH("均质油藏") #define s_Tag_HomoModelEx QStringCH("均质油藏(扩展)") #define s_Tag_DualPorModel QStringCH("双重孔隙") #define s_Tag_DualPercModel QStringCH("双重渗透") #define s_Tag_TwoCompoModel QStringCH("双区复合") #define s_Tag_ThreeCompoModel QStringCH("三区复合") //*********************************7.12改动LDY********************************** #define s_Tag_UniFracModel QStringCH("压裂直井(均匀流量)") #define s_Tag_IniFracModel QStringCH("压裂直井(无限导流)") //#define s_Tag_HorizonModel QStringCH("水平井") #define s_Tag_FinFracModel QStringCH("压裂直井(有限导流)") //*********************************7.12改动完毕********************************** #define s_Tag_NoBoundary QStringCH("无限大") #define s_Tag_OneBoundary QStringCH("单一边界") #define s_Tag_ParallBoundary QStringCH("平行边界") #define s_Tag_TCrossBoundary QStringCH("U型边界") #define s_Tag_CrossBoundary QStringCH("交叉边界") #define s_Tag_CircularCompoModel QStringCH("圆形边界") #define s_Tag_RectCompoModel QStringCH("矩形边界") //*********************************7.12改动LDY********************************** #define s_Tag_NoCharatPoint QStringCH("-------") //公共部分 #define s_Tag_WellStoragePoint QStringCH("井储点") #define s_Tag_SpikesPoint QStringCH("峰值点") #define s_Tag_RadialFlowPoint QStringCH("径向流点") //复合油藏 #define s_Tag_CompoPoint QStringCH("复合油藏点") //压裂井 #define s_Tag_LinearFlow1hPoint QStringCH("线性流1h点") #define s_Tag_LinearRadialPoint QStringCH("线性流与径向流交点") #define s_Tag_LinearBiRadialPoint QStringCH("线性流与双径向流交点") #define s_Tag_RadialBiRadialPoint QStringCH("径向流与双径向流交点") #define s_Tag_BiLinearFlow1hPoint QStringCH("双线性流1h点") #define s_Tag_LinearBiLinearPoint QStringCH("线性流与双线性流交点") #define s_Tag_RadialBiLinearPoint QStringCH("径向流与双线性流交点") //双重介质 #define s_Tag_FirRadialEndPoint QStringCH("第一径向流结束点") #define s_Tag_SecRadialStarPoint QStringCH("第二径向流开始点") #define s_Tag_DualMinPoint QStringCH("双重介质最低点") //边界 #define s_Tag_BoundClosePoint QStringCH("封闭边界流点") #define s_Tag_BoundSupplyPoint QStringCH("定压边界流点") //水平井 #define s_Tag_VerRadialPoint QStringCH("垂向径向流点") #define s_Tag_HoriLinearPoint QStringCH("水平线性流点") #define s_Tag_HoriRadialPoint QStringCH("水平径向流点") //*********************************7.12改动完毕********************************** #define s_Tag_OneTypical QStringCH("第一特征线") #define s_Tag_TwoTypical QStringCH("第二特征线") //特征值方法 //井筒储集系数 #define s_Tag_WellStorage_C QStringCH("井储阶段法") //地层渗透率 //直井 #define s_Tag_HorRadial_K QStringCH("径向流法") #define s_Tag_PeakPoint_K QStringCH("峰值法") #define s_Tag_PeakAndHR_K QStringCH("峰值-径向流法") #define s_Tag_UniFracLR_K QStringCH("线性流-径向流法") #define s_Tag_InfFracLBR_K QStringCH("线性流-双径向流法") #define s_Tag_InfFracRBR_K QStringCH("径向流-双径向流法") #define s_Tag_FinFracLBL_K QStringCH("线性流-双线性流法") //水平井 #define s_Tag_HoriWell_Kv QStringCH("线-垂径法") #define s_Tag_HoriWell_Ky QStringCH("水平线性流法") #define s_Tag_HoriWell_Kx QStringCH("线-水径法") #define s_Tag_HoriWell_Kh QStringCH("水平径向流法") //表皮系数 #define s_Tag_WellBorePeakx_S QStringCH("横坐标法") #define s_Tag_WellBorePeaky_S QStringCH("纵坐标法") //边界尺寸 #define s_Tag_OneBoundClose_L1 QStringCH("封闭边界流法") #define s_Tag_OneBoundSupply_L1 QStringCH("定压边界流法") //流度比 #define s_Tag_MobilityRatio_M QStringCH("第二径向流法") //复合半径 #define s_Tag_InnerRaDius_Rc QStringCH("第二径向流法") //裂缝半长 #define s_Tag_UniFracR_Xf QStringCH("径向流法") #define s_Tag_UniFracLR_Xf QStringCH("线性流-径向流法") #define s_Tag_InfFracLBR_Xf QStringCH("线性流-双径向流法") #define s_Tag_InfFracRBR_Xf QStringCH("径向流-双径向流法") #define s_Tag_FinFracLBL_Xf QStringCH("线性流-双线性流法") //裂缝导流能力 #define s_Tag_FinFracBL_Fc QStringCH("双线性流法") #define s_Tag_FinFracLBL_Fc QStringCH("线性流-双线性流法") #define s_Tag_FinFracRBL_Fc QStringCH("径向流-双线性流法") //储容比 #define s_Tag_DualPorMinR_Om QStringCH("径向流-最低法") #define s_Tag_DualPorMinR1_Om QStringCH("第一最低法") #define s_Tag_DualPorMinR2_Om QStringCH("第二最低法") //窜流系数 #define s_Tag_DualPorMin_Lar QStringCH("最低法") #define s_Tag_DualPorR1_Lar QStringCH("第一最低法") #define s_Tag_DualPorR2_Lar QStringCH("第二最低法") #define s_Tag_DualPorOmMin_Lar QStringCH("最低-储容比法") #define s_IprPlot_Source "IprSourcePlot" #define s_IprPlot_Result "IprResultPlot" //边界类型 #define s_Tag_BdyType_CloseB QStringCH("封闭") #define s_Tag_BdyType_FixP QStringCH("定压")