public ParetoDataType(SPC.Controls.Base.CanChooseDataGridView view, string param, int groupType, int cuType) { this.View = view; this.Param = param; this.GroupType = groupType; this.CuType = cuType; }
//--------------------------------------------------------------------------- public void fn_LotEnd() { m_tEndTime = DateTime.Now; //Lot Data Save... fn_WriteLog(string.Format($"[Lot End] Recipe : {m_sRecipeName} / LOT : {m_sLotNo}"), EN_LOG_TYPE.ltLot); m_dLotEndTime = TICK._GetTickTime(); double dRunTotal = (double)TICK.ConvTimetoSec(m_dLotEndTime - m_dLotStartTime); m_sLogMsg = string.Format($"[Lot Run Time] {TICK.ConvTimeTickToStr(m_dLotEndTime - m_dLotStartTime)} / {dRunTotal} sec"); fn_WriteLog(m_sLogMsg, EN_LOG_TYPE.ltLot); Console.WriteLine(m_sLogMsg); m_sLogMsg = string.Format($" -------------- UPH : {SPC.CalUPH(dRunTotal, 1).ToString("0.0000")} -------------- "); fn_WriteLog(m_sLogMsg, EN_LOG_TYPE.ltLot); Console.WriteLine(m_sLogMsg); //Clear Lot info m_bLotOpen = false; m_sRecipeName = string.Empty; //m_sLotNo = string.Empty; }
public MonitorSourceDataType(SPC.Controls.Base.CanChooseDataGridView view, string param, int groupType, string spectrumWith) { this.View = view; this.Param = param; this.GroupType = groupType; this.SpectrumWith = spectrumWith; }
static void Main(string[] args) { var spc = new SPC(); var serasa = new Serasa(); var credito = new Credito(); var cliente = new Cliente("12345678911", "Fulano"); var restricao = false; restricao = spc.Consulta(cliente.CPF); restricao = serasa.Consulta(cliente.CPF); if (restricao) { Console.WriteLine("Cliente com restrição..."); return; } var limiteCredito = credito.LimiteCredito(cliente.CPF); Console.WriteLine("Cliente {0} possui limite de crédito no valor de: {1}", cliente.Nome, limiteCredito); /* * veja a complexisdade que ficou o método acima. O objetivo do Facade/Fachada é limpar isso, abstraindo * as operações em um nível mais alto para o usuário. * * Implementar esse padrão será como implementar um Handler/Manipulador, como fazemos ao aplicar o Domain * Driven Design (DDD). */ }
/// <summary> /// Compares this option series to another one by its attributes. /// Expiration takes precedence in comparison. /// </summary> /// <param name="other">another option series to compare with.</param> /// <returns>result of comparison.</returns> public int CompareTo(OptionSeries other) { if (Expiration < other.Expiration) { return(-1); } if (Expiration > other.Expiration) { return(1); } if (LastTrade < other.LastTrade) { return(-1); } if (LastTrade > other.LastTrade) { return(1); } int i = Multiplier.CompareTo(other.Multiplier); if (i != 0) { return(i); } i = SPC.CompareTo(other.SPC); if (i != 0) { return(i); } i = AdditionalUnderlyings.CompareTo(other.AdditionalUnderlyings); if (i != 0) { return(i); } i = MMY.CompareTo(other.MMY); if (i != 0) { return(i); } i = OptionType.CompareTo(other.OptionType); if (i != 0) { return(i); } i = ExpirationStyle.CompareTo(other.ExpirationStyle); if (i != 0) { return(i); } i = SettlementStyle.CompareTo(other.SettlementStyle); if (i != 0) { return(i); } return(CFI.CompareTo(other.CFI)); }
public object GetInfoValue(SPC key) { if (useInfo == null) { return(0f); } if (!useInfo.ContainsKey((int)key)) { return(0f); } return(useInfo[(int)key]); }
public static double[] Count(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; int length = columns.Length; double[] result = new double[length]; int i; for (i = 0; i < length; i++) { result[i] = count; } return result; }
public void Init(DataSet result,SPC.Base.Interface.IDataTable<DataRow> data) { this.Result = result; this.Data = data; this.gridControl2.DataSource = Result; this.gridControl2.DataMember = "Results"; this.gridControl1.DataSource = Result; this.gridControl1.DataMember = "OverView"; this.gridView2.Columns.ColumnByFieldName("序号").Visible = false; this.gridView2.GroupSummary.Clear(); this.gridView2.GroupSummary.Add(new DevExpress.XtraGrid.GridGroupSummaryItem(DevExpress.Data.SummaryItemType.Count, this.gridView2.Columns[0].FieldName, null, "Count:{0}")); gridView1.FocusedRowHandle = 0; (this.gridView2.DataSource as DataView).RowFilter = "序号 = " + gridView1.GetDataRow(0)[0].ToString(); }
public void ParseInfo(Hashtable info) { if (members == null) { members = new Dictionary <string, GuildMember>(); } members.Clear(); SPC lastParameter = SPC.Id; try { ownerCharacterID = info.GetValue <string>((int)SPC.Id, string.Empty); lastParameter = SPC.GuildRating; rating = info.GetValue <int>((int)SPC.GuildRating, 0); lastParameter = SPC.Race; guildRace = info.GetValue <int>((int)SPC.Race, (int)Race.None); lastParameter = SPC.Description; description = info.GetValue <string>((int)SPC.Description, string.Empty); lastParameter = SPC.Name; name = info.GetValue <string>((int)SPC.Name, string.Empty); lastParameter = SPC.ModerCount; moderCount = info.GetValue <int>((int)SPC.ModerCount, 0); lastParameter = SPC.MaxModerCount; maxModerCount = info.GetValue <int>((int)SPC.MaxModerCount, 0); } catch (Exception exception) { throw new NebulaException(string.Format("last not handled key = {0}", lastParameter)); } opened = info.GetValue <bool>((int)SPC.Opened, true); Hashtable membersHash = info.Value <Hashtable>((int)SPC.Members) as Hashtable; if (membersHash == null) { return; } foreach (DictionaryEntry entry in membersHash) { string memberCharacterID = entry.Key.ToString(); Hashtable memberCharacterInfo = entry.Value as Hashtable; members.Add(memberCharacterID, new GuildMember(memberCharacterInfo)); } }
public static double[] IsNull(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; int length = columns.Length; double[] result = new double[length]; int i, j; DataRow temprow; for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { if (temprow[columns[j]] == null || temprow[columns[j]] == DBNull.Value) result[j]++; } } return result; }
public static double[] Avg(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; int length = columns.Length; double[] result = new double[length]; int i, j; DataRow temprow; for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { result[j] += temprow[columns[j]].ConvertToDouble(); } } for (j = 0; j < length; j++) { result[j] = result[j]/count; } return result; }
/// <summary> /// Indicates whether some other object is equal to this option series by its attributes. /// </summary> /// <param name="o"></param> /// <returns>another object to compare with.</returns> public override bool Equals(object o) { if (this == o) { return(true); } if (!(o is OptionSeries)) { return(false); } OptionSeries that = (OptionSeries)o; return(Expiration == that.Expiration && LastTrade == that.LastTrade && Multiplier.CompareTo(that.Multiplier) == 0 && SPC.CompareTo(that.SPC) == 0 && AdditionalUnderlyings.Equals(that.AdditionalUnderlyings) && ExpirationStyle.Equals(that.ExpirationStyle) && MMY.Equals(that.MMY) && OptionType.Equals(that.OptionType) && CFI.Equals(that.CFI) && SettlementStyle.Equals(that.SettlementStyle)); }
public static double[] Max(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; int length = columns.Length; double[] result = new double[length]; int i, j; double temp; DataRow temprow; for (j = 0; j < length; j++) { result[j] = double.MinValue; } for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { temp = temprow[columns[j]].ConvertToDouble(); if (temp > result[j]) result[j] = temp; } } return result; }
public static double[] Stdev(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; double[] result = new double[count]; int length = columns.Length; int i, j; double sum; double avg; double std; DataRow temprow; for (i = 0; i < count; i++) { sum = 0; temprow = input[i]; for (j = 0; j < length; j++) { sum += temprow[columns[j]].ConvertToDouble(); } avg = sum / length; std = 0; for (j = 0; j < length; j++) { std += Math.Pow(temprow[columns[j]].ConvertToDouble() - avg, 2); } result[i] = Math.Pow(std / length, 0.5); } return result; }
public Facade(Serasa serasa, SPC spc, Credito credito) { _serasa = serasa; _spc = spc; _credito = credito; }
public SPCDetermineDataType(SPC.Controls.Base.CanChooseDataGridView view, string param, double ucl, double lcl, double standard, List<SPCCommandbase> commands) { this.View = view; this.Param = param; this.UCL = ucl; this.LCL = lcl; this.Standard = standard; this.Commands = commands; }
public static void ZScore(SPC.Base.Interface.IDataTable<DataRow> sourcedata,string[] sourcecolumns,string[] targetcolumns) { var avgs = ColumnCalculate.Avg(sourcedata, sourcecolumns); var stdevs = ColumnCalculate.Stdev(sourcedata, sourcecolumns,avgs); int rowcount = sourcedata.RowCount; int columncount = sourcecolumns.Length; int i,j; DataRow temprow; foreach(var targetcolumn in targetcolumns) { if (!sourcedata.ContainsColumn(targetcolumn)) { sourcedata.AddColumn(targetcolumn, typeof(double)); } } for(i = 0;i<rowcount;i++) { temprow = sourcedata[i]; for(j=0;j<columncount;j++) { temprow[targetcolumns[j]] = (temprow[sourcecolumns[j]].ConvertToDouble() - avgs[j]) / stdevs[j]; } } }
public SPCDetermineData(SPC.Controls.Base.CanChooseDataGridView view, string param, double ucl, double lcl, double standard, List<SPCCommandbase> commands, System.Drawing.Color color, List<IDrawBoard<DevExpress.XtraCharts.ChartControl>> drawBoards) { SourceData = new SPCDetermineDataType(view, param, ucl,lcl,standard,commands); this.Name =param + "_" + DateTime.Now.ToBinary(); this.SeriesColor = color; this.DrawBoards = drawBoards; List<SPCDetermineData> templist; foreach (var drawboard in drawBoards) { if (drawboard.Tag == null || (templist = drawboard.Tag as List<SPCDetermineData>) == null) drawboard.Tag = new List<SPCDetermineData>() { this }; else templist.Add(this); } InitSeriesManagers(); }
public void Init(SPC.Base.Interface.IDataTable<DataRow> data) { this.Data = data; this.listBoxControl1.Items.Clear(); this.columnList = Data.GetColumnsList(); foreach (string column in columnList) { this.listBoxControl1.Items.Add(column); } }
protected int SPCKEY(SPC code) { return((int)code); }
public MonitorSeriesData(SPC.Controls.Base.CanChooseDataGridView view, string param, int groupType, string spectrumWith, System.Drawing.Color color, List<IDrawBoard<DevExpress.XtraCharts.ChartControl>> drawBoards) { SourceData = new MonitorSourceDataType(view, param, groupType, spectrumWith); this.Name = param + "_" + groupType.ToString() + "_" + DateTime.Now.ToBinary(); this.SeriesColor = color; this.DrawBoards = drawBoards; List<MonitorSeriesData> templist; foreach(var drawboard in drawBoards) { if (drawboard.Tag == null || (templist = drawboard.Tag as List<MonitorSeriesData>)==null) drawboard.Tag = new List<MonitorSeriesData>() { this }; else templist.Add(this); } InitSeriesManagers(); }
public static double[] Range(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; double[] result = new double[count]; int length = columns.Length; int i, j; double max, min, temp; DataRow temprow; for (i = 0; i < count; i++) { max = double.MinValue; min = double.MaxValue; temprow = input[i]; for (j = 0; j < length; j++) { temp = temprow[columns[j]].ConvertToDouble(); if (temp > max) max = temp; if (temp < min) min = temp; } result[i] = max - min; } return result; }
public static double[] QuadraticSum(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; double[] result = new double[count]; int length = columns.Length; int i, j; DataRow temprow; for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { result[i] += Math.Pow(temprow[columns[j]].ConvertToDouble(), 2); } } return result; }
public static double[] Mid(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; double[] result = new double[count]; int length = columns.Length; int i, j; double temp; DataRow temprow; SortedList<double, double> list; for (i = 0; i < count; i++) { temprow = input[i]; list = new SortedList<double, double>(); for (j = 0; j < length; j++) { temp = temprow[columns[j]].ConvertToDouble(); list.Add(temp, temp); } if (length % 2 == 0) result[i] = (list.Keys[length / 2] + list.Keys[length / 2 - 1]) / 2; else result[i] = list.Keys[length / 2]; } return result; }
public static double[] Mid(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; int length = columns.Length; double[] result = new double[length]; int i, j; double temp; DataRow temprow; SortedList<double, double>[] list = new SortedList<double, double>[length]; for (j = 0; j < length; j++) { list[j] = new SortedList<double, double>(); } for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { temp = temprow[columns[j]].ConvertToDouble(); list[j].Add(temp, temp); } } if (count % 2 == 0) { for (j = 0; j < length; j++) { result[j] = (list[j].Keys[count / 2] + list[j].Keys[count / 2 - 1]) / 2; } } else { for (j = 0; j < length; j++) { result[j] = list[j].Keys[count / 2]; } } return result; }
public static double[] Stdev(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns,double[] avgs) { int count = input.RowCount; int length = columns.Length; if(avgs.Length!=length) { return Stdev(input, columns); } double[] result = new double[length]; int i, j; DataRow temprow; for (i = 0; i < count; i++) { temprow = input[i]; for (j = 0; j < length; j++) { result[j] += Math.Pow(temprow[columns[j]].ConvertToDouble() - avgs[j], 2); } } for (j = 0; j < length; j++) { result[j] = Math.Pow(result[j] / count, 0.5); } return result; }
private void Paint() { if (Combx2.SelectedIndex < 0 || Combx4_Month_Ed.SelectedIndex <= Combx4_Month_ST.SelectedIndex) { return; } SPCtype spctype; if (Combx2.SelectedIndex == 0) { spctype = SPCtype.P; } else { spctype = (SPCtype)Combx2.SelectedIndex; } var ctdata = GMeasures.FirstOrDefault(o => o.MeasureID == this.Combx1.SelectedValue.ToString()).Records; if (ctdata == null || ctdata.Count < 3) { return; } var ctdatatake = ctdata.Reverse().ToDictionary(o => o.Key, o => o.Value); SPC spcdatas; if (Ck_Sep.IsChecked == true) { if (Combx4_Month_ST.SelectedIndex < 3) { return; } var data1 = new SPC(ctdatatake.Take(Combx4_Month_ST.SelectedIndex + 1).ToDictionary(o => o.Key, o => o.Value), spctype); var data2 = new SPC(ctdatatake.Skip(Combx4_Month_ST.SelectedIndex + 1).Take(Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex).ToDictionary(o => o.Key, o => o.Value), spctype); spcdatas = data1 + data2; if ((Combx4_Month_Ed.Items.Count - Combx4_Month_Ed.SelectedIndex - 1) > 3) { var data3 = new SPC(ctdatatake.Skip(Combx4_Month_Ed.SelectedIndex + 1).Take(Combx4_Month_Ed.Items.Count - Combx4_Month_Ed.SelectedIndex - 1).ToDictionary(o => o.Key, o => o.Value), spctype); spcdatas += data3; } } else { if (Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex < 3) { return; } spcdatas = new SPC(ctdatatake.Skip(Combx4_Month_ST.SelectedIndex).Take(Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex + 1).ToDictionary(o => o.Key, o => o.Value), spctype); } double amply = 1; if (spctype != SPCtype.C && spctype != SPCtype.nP && spctype != SPCtype.I_MR) { amply = Permil == 2 ? 1000 : 100; } int roundlevel = spcdatas.Average.Select(o => o * amply).Average() <= 0.1 ? 4 : 2; /* * line1.Title = Combx1.SelectedValue.ToString(); * line1.Values = new ChartValues<double>(spcdatas.Measures.Select(o => Math.Round(o * amply, roundlevel))); * line2.Values = new ChartValues<double>(spcdatas.Average.Select(o => Math.Round(o * amply, roundlevel))); * line3.Values = new ChartValues<double>(spcdatas.UCL.Select(o => Math.Round(o * amply, roundlevel))); * line4.Values = new ChartValues<double>(spcdatas.UUCL.Select(o => Math.Round(o * amply, roundlevel))); * line5.Values = new ChartValues<double>(spcdatas.LCL.Select(o => Math.Round(o * amply, roundlevel))); * line6.Values = new ChartValues<double>(spcdatas.LLCL.Select(o => Math.Round(o * amply, roundlevel))); */ cartesianchart1.Series.Clear(); cartesianchart1.Series.Add(new LineSeries { DataLabels = true, LineSmoothness = 0, PointGeometrySize = 10, PointForeground = (SolidColorBrush)(new BrushConverter().ConvertFrom("#222E31")), StrokeThickness = 4, StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#6BBA45")), Fill = Brushes.Transparent, Title = Combx1.SelectedValue.ToString(), Values = new ChartValues <double>(spcdatas.Measures.Select(o => Math.Round(o * amply, roundlevel))) }); cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FF3333")), Fill = Brushes.Transparent, Title = "管制圖上限(3α)", Values = new ChartValues <double>(spcdatas.UCL.Select(o => Math.Round(o * amply, roundlevel))) }); cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFAD33")), Fill = Brushes.Transparent, Title = "管制圖上限(2α)", Values = new ChartValues <double>(spcdatas.UUCL.Select(o => Math.Round(o * amply, roundlevel))) }); cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 1, PointGeometry = null, StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#1C8FC5")), Fill = Brushes.Transparent, Title = "平均值", Values = new ChartValues <double>(spcdatas.Average.Select(o => Math.Round(o * amply, roundlevel))) }); cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFAD33")), Fill = Brushes.Transparent, Title = "管制圖下限(2α)", Values = new ChartValues <double>(spcdatas.LLCL.Select(o => Math.Round(o * amply, roundlevel))) }); cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FF3333")), Fill = Brushes.Transparent, Title = "管制圖下限(3α)", Values = new ChartValues <double>(spcdatas.LCL.Select(o => Math.Round(o * amply, roundlevel))) }); ///加入閾值及同儕值 if (Ck_Thresh.IsChecked == true && spcdatas.Threshold.Count > 0 && spcdatas.Type != SPCtype.C && spcdatas.Type != SPCtype.nP && spcdatas.Type != SPCtype.I_MR) { cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, //StrokeThickness = 3, //StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#3366FF")), Fill = Brushes.Transparent, Title = "閾值", Values = new ChartValues <double>(spcdatas.Threshold.Select(o => Math.Round(o, roundlevel))) }); if (Ck_Peer.IsChecked == true && spcdatas.Peervalue.Count > 0) { cartesianchart1.Series.Add(new LineSeries { LineSmoothness = 0, PointGeometry = null, //StrokeThickness = 3, //StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FF3333")), Fill = Brushes.Transparent, Title = "同儕值", Values = new ChartValues <double>(spcdatas.Peervalue.Select(o => Math.Round(o, roundlevel))) }); } } axisx.Sections.Clear(); axisx.Labels = new List <string>(spcdatas.Title); if (Ck_Sep.IsChecked == true) { axisx.Sections.Add(new AxisSection() { Value = Combx4_Month_ST.SelectedIndex + 1, //Fill = Brushes.Transparent, Fill = (SolidColorBrush)(new BrushConverter().ConvertFrom("#f9ffe6")), Opacity = 7, Stroke = Brushes.Transparent, //StrokeThickness = 3, //Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFFF33")), //StrokeDashArray = new System.Windows.Media.DoubleCollection { 4 }, SectionWidth = Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex >= 3 ? Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex - 1 : 0 }); /* * if (Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex >= 3) * { * axisx.Sections.Add(new AxisSection() * { * Value = Combx4_Month_Ed.SelectedIndex, * Fill = Brushes.Transparent, * Opacity = 6, * StrokeThickness = 3, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFFF33")), * StrokeDashArray = new System.Windows.Media.DoubleCollection { 4 }, * //SectionWidth = Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex * }); * } */ /* * axisx.Labels = new List<string>(); * foreach (var x in ctdatatake) * axisx.Labels.Add(x.Key); * var data2 = new SPC(ctdatatake.Skip(Combx4_Month_ST.SelectedIndex + 1).Take(Combx4_Month_Ed.SelectedIndex - Combx4_Month_ST.SelectedIndex).ToDictionary(o => o.Key, o => o.Value), spctype); * for (int i = 0; i < Combx4_Month_ST.SelectedIndex + 1; i++) * { * data2.Title.Insert(0, string.Empty); * data2.Measures.Insert(0, double.NaN); * data2.Average.Insert(0, double.NaN); * data2.UCL.Insert(0, double.NaN); * data2.UUCL.Insert(0, double.NaN); * data2.LCL.Insert(0, double.NaN); * data2.LLCL.Insert(0, double.NaN); * } * cartesianchart1.Series.Add(new LineSeries * { * DataLabels = true, * PointGeometrySize = 10, * PointForeground = (SolidColorBrush)(new BrushConverter().ConvertFrom("#222E31")), * StrokeThickness = 4, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#6BBA45")), * Fill = Brushes.Transparent, * Title = null, * Values = new ChartValues<double>(data2.Measures.Select(o => Math.Round(o * amply, roundlevel))) * }); * cartesianchart1.Series.Add(new LineSeries * { * PointGeometry = null, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 2 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#1C8FC5")), * Fill = Brushes.Transparent, * Title = null, * Values = new ChartValues<double>(data2.Average.Select(o => Math.Round(o * amply, roundlevel))) * }); * cartesianchart1.Series.Add(new LineSeries * { * PointGeometry = null, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FF3333")), * Fill = Brushes.Transparent, * Values = new ChartValues<double>(data2.UCL.Select(o => Math.Round(o * amply, roundlevel))) * }); * cartesianchart1.Series.Add(new LineSeries * { * PointGeometry = null, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFAD33")), * Fill = Brushes.Transparent, * Values = new ChartValues<double>(data2.UUCL.Select(o => Math.Round(o * amply, roundlevel))) * }); * cartesianchart1.Series.Add(new LineSeries * { * PointGeometry = null, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FF3333")), * Fill = Brushes.Transparent, * Values = new ChartValues<double>(data2.LCL.Select(o => Math.Round(o * amply, roundlevel))) * }); * cartesianchart1.Series.Add(new LineSeries * { * PointGeometry = null, * StrokeDashArray = new System.Windows.Media.DoubleCollection { 1 }, * Stroke = (SolidColorBrush)(new BrushConverter().ConvertFrom("#FFAD33")), * Fill = Brushes.Transparent, * Values = new ChartValues<double>(data2.LLCL.Select(o => Math.Round(o * amply, roundlevel))) * }); */ } //YFormatter = value => value.ToString(roundlevel == 4 ? "F4" : "F2"); cartesianchart1.AxisY[0].LabelFormatter = value => value.ToString(roundlevel == 4 ? "F4" : "F2"); DataContext = this; cartesianchart1.Update(); this.Combx1.Focus(); }
public void ParseInfo(Hashtable info) { if (members == null) { members = new Dictionary <string, GuildMember>(); } members.Clear(); SPC lastParameter = SPC.Id; try { ownerCharacterID = info.GetValueString((int)SPC.Id); lastParameter = SPC.GuildRating; rating = info.GetValueInt((int)SPC.GuildRating); lastParameter = SPC.Race; guildRace = info.GetValueInt((int)SPC.Race, (int)Race.None); lastParameter = SPC.Description; description = info.GetValueString((int)SPC.Description); lastParameter = SPC.Name; name = info.GetValueString((int)SPC.Name); lastParameter = SPC.ModerCount; moderCount = info.GetValueInt((int)SPC.ModerCount); lastParameter = SPC.MaxModerCount; maxModerCount = info.GetValueInt((int)SPC.MaxModerCount); depositedCredits = info.GetValueInt((int)SPC.Credits); depositedPvpPoints = info.GetValueInt((int)SPC.PvpPoints); } catch (Exception exception) { throw new NebulaException(string.Format("last not handled key = {0}", lastParameter)); } opened = info.GetValueBool((int)SPC.Opened, true); Hashtable membersHash = info.GetValueHash((int)SPC.Members) as Hashtable; if (membersHash == null) { return; } foreach (System.Collections.DictionaryEntry entry in membersHash) { string memberCharacterID = entry.Key.ToString(); Hashtable memberCharacterInfo = entry.Value as Hashtable; members.Add(memberCharacterID, new GuildMember(memberCharacterInfo)); } poster = info.GetValueString((int)SPC.DayPoster); if (info.ContainsKey((int)SPC.Transactions)) { Hashtable[] arr = info[(int)SPC.Transactions] as Hashtable[]; if (arr != null) { transactions = new List <CoalitionTransaction>(); foreach (Hashtable h in arr) { var transaction = CoalitionTransaction.Parse(h); if (transaction != null) { transactions.Add(transaction); } } } } }
//--------------------------------------------------------------------------- //Update Timer private void fn_tmUpdate(object sender, EventArgs e) { //m_UpdateTimer.Stop(); // switch (m_nStep) { case 0: tbLoadMsg.Text = " Now Loading System Data..."; if (!m_tDelayTimer.OnDelay(true, 300)) { return; } m_tDelayTimer.Clear(); m_nStep++; break; case 1: //Load Default file Info. tbLoadMsg.Text = " Loading the Information..."; FM.fn_LoadLastInfo(true); tbLoadMsg.Text = " Loading the Project Info..."; FM.fn_LoadProject(true, FM._sCurrJob); tbLoadMsg.Text = " Loading the System Option..."; FM.fn_LoadSysOptn(true); tbLoadMsg.Text = " Loading the Master Option..."; FM.fn_LoadMastOptn(true); tbLoadMsg.Text = " Loading the Recipe Data..."; FM.fn_LoadRecipeInfo(true, FM._sRecipeName); tbLoadMsg.Text = " Loading the Password..."; FM.fn_LoadPassWord(true); tbLoadMsg.Text = " Loading SPC Data..."; SPC.Load(true); m_tDelayTimer.Clear(); m_nStep++; break; case 2: if (!m_tDelayTimer.OnDelay(true, 100)) { return; } tbLoadMsg.Text = " Loading the IO List..."; IO.fn_LoadIO(true); tbLoadMsg.Text = " Loading the Lamp/Buzzer Data..."; LAMP.fn_Load(true); tbLoadMsg.Text = " Loading the Actuator Data..."; ACTR.fn_Load(true); //tbLoadMsg.Text = " ACS IO Connection...(SIM)" ; IO.fn_ACSConnect(UserConst.ACS_CON_SIM); tbLoadMsg.Text = " ACS IO Connection..."; IO.fn_ACSConnect(UserConst.ACS_CON_NOR); m_tDelayTimer.Clear(); m_nStep++; break; case 3: //if (!m_tDelayTimer.OnDelay(true, 100)) return; tbLoadMsg.Text = " Loading the Error List..."; EPU.fn_LoadErrorData(true); tbLoadMsg.Text = " Loading the Lamp/Buzzer Data..."; EPU.fn_LoadLampData(true); m_tDelayTimer.Clear(); m_nStep++; break; case 4: if (!m_tDelayTimer.OnDelay(true, 500)) { return; } //tbLoadMsg.Text = " Loading the Motor List...(SIM)"; MOTR.fn_InitMotor(UserConst.ACS_CON_SIM); tbLoadMsg.Text = " Loading the Motor List..."; MOTR.fn_InitMotor(UserConst.ACS_CON_NOR); tbLoadMsg.Text = " Loading the Vision Recipe..."; g_VisionManager.fn_LoadVision(FM._sRecipeName); //tbLoadMsg.Text = " Loading the Motor Data..." ; FM.fn_LoadMastOptn(true); //tbLoadMsg.Text = " Loading the Motor DSTB..." ; MOTR.fn_LoadMotrDisturb(true); m_tDelayTimer.Clear(); m_nStep++; break; case 5: //if (!m_tDelayTimer.OnDelay(true, 500)) return; tbLoadMsg.Text = " Loading the Data Manager Map Data..."; DM.fn_LoadMap(true); tbLoadMsg.Text = " Loading the Sequence Data..."; SEQ.fn_LoadWorkInfo(true); m_tDelayTimer.Clear(); m_nStep++; break; case 6: //Row, Col Setting... tbLoadMsg.Text = " Apply Project..."; FM.ApplyProject(FM._sCurrJob); m_nStep++; break; case 7: //LoadCell tbLoadMsg.Text = " Initial Load Cell ..."; LDCBTM.fn_SetParam(); LDCBTM.fn_Open(LDCBTM._sSerialNo); //LDCBTM.fn_Open (FM.m_stMasterOpt.sLoadCellSN); LDCBTM.fn_Close(); //JUNG/201014/Retry LDCBTM.fn_Open(LDCBTM._sSerialNo); //PMC, Slurry Init //tbLoadMsg.Text = " Initial PMC IP,Port ..." ; PMC.fn_SetIpAddress(FM.m_stSystemOpt.sPMCIp, FM.m_stSystemOpt.nPMCPort); tbLoadMsg.Text = " Initial REST API ..."; REST.fn_SetURL(FM.m_stSystemOpt.sRestApiUrl); tbLoadMsg.Text = " Initial RFID Reader ..."; m_nStep++; break; case 8: if (IO._bConnect) { //RFID tbLoadMsg.Text = " Initial RFID Reader ..."; RFID.fn_Connect(); } m_nStep++; break; case 9: //if (!m_tDelayTimer.OnDelay(true, 500)) return; //Main Load fn_MainFormLoad(); m_UpdateTimer.Stop(); m_nStep++; break; default: break; } //Step Inc. pbStep.Value = m_nStep * 10; //m_UpdateTimer.Start(); }
public static void F1T2(SPC.Base.Interface.IDataTable<DataRow> sourcedata, string[] sourcecolumns, string[] targetcolumns,double arg_1,double arg_2) { var mins = ColumnCalculate.Min(sourcedata, sourcecolumns); var maxs = ColumnCalculate.Max(sourcedata, sourcecolumns); int rowcount = sourcedata.RowCount; int columncount = sourcecolumns.Length; double[] ranges = new double[columncount]; int i, j; DataRow temprow; double r = arg_2 - arg_1; for (j = 0; j < columncount; j++) { if (!sourcedata.ContainsColumn(targetcolumns[j])) { sourcedata.AddColumn(targetcolumns[j], typeof(double)); } ranges[j] = maxs[j]-mins[j]; } for (i = 0; i < rowcount; i++) { temprow = sourcedata[i]; for (j = 0; j < columncount; j++) { temprow[targetcolumns[j]] = ((temprow[sourcecolumns[j]].ConvertToDouble() - mins[j])*r) / ranges[j]+arg_1; } } }
public XYRelationData(SPC.Controls.Base.CanChooseDataGridView view, string paramY, string paramX, System.Drawing.Color color, List<IDrawBoard<DevExpress.XtraCharts.ChartControl>> drawBoards) { SourceData = new XYRelationSourceDataType(view, paramX, paramY); this.Name ="X:"+ paramX + "_Y:" + paramY + "_" + DateTime.Now.ToBinary(); this.SeriesColor = color; this.DrawBoards = drawBoards; List<XYRelationData> templist; foreach (var drawboard in drawBoards) { if (drawboard.Tag == null || (templist = drawboard.Tag as List<XYRelationData>) == null) drawboard.Tag = new List<XYRelationData>() { this }; else templist.Add(this); } InitSeriesManagers(); }
public static void M1D2(SPC.Base.Interface.IDataTable<DataRow> sourcedata, string[] sourcecolumns, string[] targetcolumns,double arg_1,double arg_2) { int rowcount = sourcedata.RowCount; int columncount = sourcecolumns.Length; int i, j; DataRow temprow; foreach (var targetcolumn in targetcolumns) { if (!sourcedata.ContainsColumn(targetcolumn)) { sourcedata.AddColumn(targetcolumn, typeof(double)); } } for (i = 0; i < rowcount; i++) { temprow = sourcedata[i]; for (j = 0; j < columncount; j++) { temprow[targetcolumns[j]] = (temprow[sourcecolumns[j]].ConvertToDouble() - arg_1) / arg_2; } } }
public static double[] Sum(SPC.Base.Interface.IDataTable<DataRow> input, string[] columns) { int count = input.RowCount; double[] result = new double[count]; int length = columns.Length; int i, j; double sum; DataRow temprow; for (i = 0; i < count; i++) { sum = 0; temprow = input[i]; for (j = 0; j < length; j++) { sum += temprow[columns[j]].ConvertToDouble(); } result[i] = sum; } return result; }
public XYZRelationSourceDataType(SPC.Controls.Base.CanChooseDataGridView view, string paramX, string paramY, string paramZ) { this.View = view; this.ParamX = paramX; this.ParamY = paramY; this.ParamZ = paramZ; }