private double WspT(string pstring, Moment[] par) { switch (pstring) { case "ph": return(Oka.wspTPH(par[1].Real, par[2].Real)); case "ps": return(Oka.wspTPS(par[1].Real, par[2].Real)); case "ptpeff": return(Oka.wspTEXPANSIONPTPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real)); case "ptxpeff": return(Oka.wspTEXPANSIONPTXPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real, par[5].Real)); case "hs": return(Oka.wspTHS(par[1].Real, par[2].Real)); case "sp": return(Oka.wspTSP(par[1].Real)); case "shs": return(Oka.wspTSHS(par[1].Real, par[2].Real)); } return(double.NaN); }
//Общая функция для вызова функций по пару и воде, funName - имя функции WSP private void WspFun(Moment[] par, Moment res, string funName, Func <string, Moment[], double> deleg) { string f = "wsp" + funName; try { string s = par[0].String.ToLower(); if (WpsParamsNum(s) != par.Length - 1) { PutErr("Недопустимое количество параметров функции " + f, res); } else { double d = deleg(s, par); if (double.IsNaN(d)) { PutErr(_wsperr + f, res); } else { res.Real = d; } } if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + f, res); } } catch { PutErr(_wsperr + f, res); } }
private double WspH(string pstring, Moment[] par) { switch (pstring) { case "pt": return(Oka.wspHPT(par[1].Real, par[2].Real)); case "ptx": return(Oka.wspHPTX(par[1].Real, par[2].Real, par[3].Real)); case "ps": return(Oka.wspHPS(par[1].Real, par[2].Real)); case "ptpeff": return(Oka.wspHEXPANSIONPTPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real)); case "ptxpeff": return(Oka.wspHEXPANSIONPTXPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real, par[5].Real)); case "sst": return(Oka.wspHSST(par[1].Real)); case "swt": return(Oka.wspHSWT(par[1].Real)); case "stx": return(Oka.wspHSTX(par[1].Real, par[2].Real)); case "mspt": return(Oka.wspHMSPT(par[1].Real, par[2].Real)); } return(double.NaN); }
public void wspgvfss(Moment[] par, Moment res) { try { res.Real = Oka.wspgVFGSGS(par[0].String, par[1].String); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgVF", res); } } catch { PutErr(_wsperr + "wspgVF", res); } }
public void wspgcvtrsr(Moment[] par, Moment res) { try { res.Real = Oka.wspgCVGST(GazSpecification(par, 1), par[0].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgCVT", res); } } catch { PutErr(_wsperr + "wspgCVT", res); } }
// ВодаПар // public void wspsurftenr(Moment[] par, Moment res) { try { res.Real = Oka.wspSURFTENT(par[0].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspSurftent", res); } } catch { PutErr(_wsperr + "wspSurftent", res); } }
public void wspgcvtrs(Moment[] par, Moment res) { try { res.Real = Oka.wspgCVGST(par[1].String, par[0].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgCVT", res); } } catch { PutErr(_wsperr + "wspgCVT", res); } }
public void wspphasestaterr(Moment[] par, Moment res) { try { res.Integer = Oka.wspPHASESTATEPT(par[0].Real, par[1].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspPhaseState", res); } } catch { PutErr(_wsperr + "wspPhaseState", res); } }
public void wspgvptrri(Moment[] par, Moment res) { try { res.Real = Oka.wspgVIDPT(par[2].Integer, par[0].Real, par[1].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgVPT", res); } } catch { PutErr(_wsperr + "wspgVPT", res); } }
public void wspgvptrrsr(Moment[] par, Moment res) { try { res.Real = Oka.wspgVGSPT(GazSpecification(par, 2), par[0].Real, par[1].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgVPT", res); } } catch { PutErr(_wsperr + "wspgVPT", res); } }
public void wspgvfii(Moment[] par, Moment res) { try { res.Real = Oka.wspgVFIDID(par[0].Integer, par[1].Integer); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgVF", res); } } catch { PutErr(_wsperr + "wspgVF", res); } }
public void wspgtpsrrs(Moment[] par, Moment res) { try { res.Real = Oka.wspgTGSPS(par[2].String, par[0].Real, par[1].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgTPS", res); } } catch { PutErr(_wsperr + "wspgTPS", res); } }
public void wspgmmsr(Moment[] par, Moment res) { try { res.Real = Oka.wspgMMGS(GazSpecification(par, 0)); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgMM", res); } } catch { PutErr(_wsperr + "wspgMM", res); } }
public void wspgthri(Moment[] par, Moment res) { try { res.Real = Oka.wspgTIDH(par[1].Integer, par[0].Real); if (Oka.wspGETLASTERROR() != 0) { PutErr(_wsperr + "wspgTH", res); } } catch { PutErr(_wsperr + "wspgTH", res); } }
private double WspP(string pstring, Moment[] par) { switch (pstring) { case "hs": return(Oka.wspPHS(par[1].Real, par[2].Real)); case "st": return(Oka.wspPST(par[1].Real)); case "subt": return(Oka.wspPSUBT(par[1].Real)); case "meltit": return(Oka.wspPMELTIT(par[1].Real)); } return(double.NaN); }
public static void Initialize() { if (_isInitialized) { return; } try { InfoTaskDir = Different.GetInfoTaskDir(); GeneralDir = InfoTaskDir + @"General\"; TmpDir = InfoTaskDir + @"Tmp\"; DocsDir = InfoTaskDir + @"Docs\"; ControllerDir = InfoTaskDir + @"Controller\"; ReporterDir = InfoTaskDir + @"Reporter\"; ConfigFile = GeneralDir + "Config.accdb"; HistryTemplateFile = GeneralDir + "HistoryTemplate.accdb"; if (!DaoDb.Check(GeneralDir + "General.accdb", new[] { "Functions", "FunctionsOverloads" })) { Different.MessageError("Не допустимый General.accdb"); } if (!DaoDb.Check(ConfigFile, new[] { "SysTabl", "SysSubTabl" })) { Different.MessageError("Не допустимый Config.accdb"); } ControllerFile = ControllerDir + "ControllerData.accdb"; if (!DaoDb.Check(ControllerFile, new[] { "Threads", "Projects", "Providers" })) { Different.MessageError("Не допустимый ControllerData.accdb"); } ReporterFile = ReporterDir + "ReporterData.accdb"; ReportTemplateFile = ReporterDir + "ReportTemplate.accdb"; DebugMode = SysTabl.ValueS(ControllerFile, "DebugMode") == "True"; Oka.Register(); ReadProvidersLists(); _isInitialized = true; } catch (Exception ex) { ex.MessageError("Настроечный файл имеет недопустимый формат"); } }
private double WspTHERMCOND(string pstring, Moment[] par) { switch (pstring) { case "pt": return(Oka.wspTHERMCONDPT(par[1].Real, par[2].Real)); case "ptx": return(Oka.wspTHERMCONDPTX(par[1].Real, par[2].Real, par[3].Real)); case "ph": return(Oka.wspTHERMCONDPH(par[1].Real, par[2].Real)); case "ps": return(Oka.wspTHERMCONDPS(par[1].Real, par[2].Real)); case "ptpeff": return(Oka.wspTHERMCONDEXPANSIONPTPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real)); case "ptxpeff": return(Oka.wspTHERMCONDEXPANSIONPTXPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real, par[5].Real)); case "hs": return(Oka.wspTHERMCONDHS(par[1].Real, par[2].Real)); case "sst": return(Oka.wspTHERMCONDSST(par[1].Real)); case "swt": return(Oka.wspTHERMCONDSWT(par[1].Real)); case "stx": return(Oka.wspTHERMCONDSTX(par[1].Real, par[2].Real)); case "mspt": return(Oka.wspTHERMCONDMSPT(par[1].Real, par[2].Real)); } return(double.NaN); }
private double WspJOULETHOMPSON(string pstring, Moment[] par) { switch (pstring) { case "pt": return(Oka.wspJOULETHOMPSONPT(par[1].Real, par[2].Real)); case "ptx": return(Oka.wspJOULETHOMPSONPTX(par[1].Real, par[2].Real, par[3].Real)); case "ph": return(Oka.wspJOULETHOMPSONPH(par[1].Real, par[2].Real)); case "ps": return(Oka.wspJOULETHOMPSONPS(par[1].Real, par[2].Real)); case "ptpeff": return(Oka.wspJOULETHOMPSONEXPANSIONPTPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real)); case "ptxpeff": return(Oka.wspJOULETHOMPSONEXPANSIONPTXPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real, par[5].Real)); case "hs": return(Oka.wspJOULETHOMPSONHS(par[1].Real, par[2].Real)); case "sst": return(Oka.wspJOULETHOMPSONSST(par[1].Real)); case "swt": return(Oka.wspJOULETHOMPSONSWT(par[1].Real)); case "stx": return(Oka.wspJOULETHOMPSONSTX(par[1].Real, par[2].Real)); case "mspt": return(Oka.wspJOULETHOMPSONMSPT(par[1].Real, par[2].Real)); } return(double.NaN); }
private double WspKINVIS(string pstring, Moment[] par) { switch (pstring) { case "pt": return(Oka.wspKINVISPT(par[1].Real, par[2].Real)); case "ptx": return(Oka.wspKINVISPTX(par[1].Real, par[2].Real, par[3].Real)); case "ph": return(Oka.wspKINVISPH(par[1].Real, par[2].Real)); case "ps": return(Oka.wspKINVISPS(par[1].Real, par[2].Real)); case "ptpeff": return(Oka.wspKINVISEXPANSIONPTPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real)); case "ptxpeff": return(Oka.wspKINVISEXPANSIONPTXPEFF(par[1].Real, par[2].Real, par[3].Real, par[4].Real, par[5].Real)); case "hs": return(Oka.wspKINVISHS(par[1].Real, par[2].Real)); case "sst": return(Oka.wspKINVISSST(par[1].Real)); case "swt": return(Oka.wspKINVISSWT(par[1].Real)); case "stx": return(Oka.wspKINVISSTX(par[1].Real, par[2].Real)); case "mspt": return(Oka.wspKINVISMSPT(par[1].Real, par[2].Real)); } return(double.NaN); }