using IStation.Epanet;
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using IStation.Epanet.Enums;
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using System;
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using System.Collections.Generic;
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using System.IO;
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using System.Linq;
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using System.Text;
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namespace IStation.WinFrmUI
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{
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/// <summary>
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/// 导出 分析系数
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/// </summary>
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public partial class ExportModelAnalysisFactorHelper
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{
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public class ModelDiffViewModel
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{
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public string Time { get; set; }
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public string MonitorID { get; set; }
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public string ModelID { get; set; }
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public string Type { get; set; }
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public double ModelValue { get; set; }
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public double MonitorValue { get; set; }
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public double DiffVlaue { get; set; }
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public int? Flag { get; set; }
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public double? Hz { get; set; }
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public double? Hz0 { get; set; }
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}
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/// <summary>
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/// 分析系数
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/// </summary>
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public class AnalysisFactor
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{
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/// <summary>
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/// 泵标志
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/// </summary>
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public int Flag { get; set; }
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/// <summary>
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/// 频率
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/// </summary>
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public double Hz { get; set; }
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/// <summary>
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/// 扬程标准差
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/// </summary>
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public double? HeadSTDP { get; set; }
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/// <summary>
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/// 扬程偏差
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/// </summary>
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public double? HeadDeviation { get; set; }
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/// <summary>
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/// 准确度
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/// </summary>
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public double Accuracy { get; set; }
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}
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private static BLL.StationSignalRecordPacket _packet = new BLL.StationSignalRecordPacket();
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private static string _model_file = System.IO.Path.Combine(SettingsD.File.RootDirectory, SettingsD.File.DataFolder, "ch2_v3_20240918(Clear).inp");
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/// <summary>
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/// 绑定数据
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/// </summary>
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public static bool Export(long monitorDataSourcesId, long stationId, int station_index, string name)
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{
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var eq_list = new BLL.Equipment().GetPumpListByBelongTypeAndBelongID(IStation.ObjectType.Station, stationId);
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if (eq_list == null || !eq_list.Any())
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{
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return default;
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}
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var flag_pump_dict = eq_list.ToDictionary(x => x.SortCode, x => x.RatedParas);
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var flag_curve_dict = new Dictionary<int, Model.CurveExpress>();
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var bll_curve = new BLL.PumpCurve();
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foreach (var pump in eq_list)
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{
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Model.CurveExpress qh = null;
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var curve_info = bll_curve.GetDefaultWorkingByPumpID(pump.ID)?.CurveInfo;
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if (curve_info != null)
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{
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qh = curve_info.CurveQH;
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}
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flag_curve_dict.Add(pump.SortCode, qh);
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}
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if (flag_curve_dict == null || !flag_curve_dict.Any())
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{
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return default;
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}
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var all_list = Get(monitorDataSourcesId, stationId, station_index, 300);
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if (all_list == null || !all_list.Any())
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return default;
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var pressure_id_mapping_dict = GetPumpPressureIdMappingDict(station_index);
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var flow_id_mapping_dict = GetPumpFlowIdMappingDict(station_index);
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var pump_id_mapping_dict = GetPumpIdMappingDict(station_index);
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var err = EpanetMethods.ENopen(_model_file, "", "");
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if (err != ErrorCode.Ok)
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{
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return default;
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}
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err = EpanetMethods.ENopenH();
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if (err != ErrorCode.Ok)
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{
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return default;
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}
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var multi_tag_head_diff_list = new List<Tuple<string, double>>();
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var vm_list = new List<ModelDiffViewModel>();
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var model_id_build = new StringBuilder(31);
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foreach (var tuple in all_list)
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{
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var time = tuple.Item1.ToString("G");
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var pattern_dict = tuple.Item2;
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var scada_dict = tuple.Item3;
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var pump_dict = tuple.Item4;
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var pattern_init = true;
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foreach (var pattern in pattern_dict)
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{
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var pattern_id = pattern.Key;
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var pattern_factor_array = pattern.Value;
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var pattern_factor_array_count = pattern_factor_array.Length == 0 ? 1 : pattern_factor_array.Length;
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err = EpanetMethods.ENgetpatternindex(pattern_id, out int pattern_index);
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if (err != ErrorCode.Ok)
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{
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pattern_init = false;
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continue;
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}
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err = EpanetMethods.ENsetpattern(pattern_index, pattern_factor_array, pattern_factor_array_count);
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if (err != ErrorCode.Ok)
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{
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pattern_init = false;
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continue;
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}
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}
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if (!pattern_init)
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continue;
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EpanetMethods.ENinitH(0);
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EpanetMethods.ENrunH(out _);
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EpanetMethods.ENgetcount(CountType.Node, out int node_count);
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EpanetMethods.ENgetcount(CountType.Link, out int link_count);
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for (int node_index = 1; node_index <= node_count; node_index++)
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{
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if (EpanetMethods.ENgetnodeid(node_index, model_id_build) != ErrorCode.Ok)
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continue;
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var model_id = model_id_build.ToString();
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if (pressure_id_mapping_dict.ContainsKey(model_id))
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{
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var scada_id = pressure_id_mapping_dict[model_id];
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double? hz = null, hzr = null;
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int? flag = null;
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if (pump_dict.ContainsKey(scada_id))
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{
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if (!(pump_dict[scada_id] > 0))
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{
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continue;
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}
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hz = pump_dict[scada_id] * 50;
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hz = Math.Round(hz.Value, 2);
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hzr = Math.Round(hz.Value);
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flag = pump_id_mapping_dict[model_id];
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}
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EpanetMethods.ENgetnodevalue(node_index, NodeValue.Head, out float model_head);
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var scada_value = scada_dict[scada_id];
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var vm = new ModelDiffViewModel();
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vm.Time = time;
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vm.MonitorID = scada_id;
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vm.ModelID = model_id;
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vm.ModelValue = model_head;
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vm.MonitorValue = scada_value;
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vm.DiffVlaue = scada_value - model_head;
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vm.Type = "压力";
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vm.Hz = hz;
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vm.Hz0 = hzr;
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vm.Flag = flag;
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if (Math.Round(vm.DiffVlaue) > 100)
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{
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continue;
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}
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vm_list.Add(vm);
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}
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}
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for (int link_index = 1; link_index <= link_count; link_index++)
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{
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if (EpanetMethods.ENgetlinkid(link_index, model_id_build) != ErrorCode.Ok)
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continue;
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var model_id = model_id_build.ToString();
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if (flow_id_mapping_dict.ContainsKey(model_id))
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{
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var scada_id = flow_id_mapping_dict[model_id];
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double? hz = null, hzr = null;
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int? flag = null;
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if (pump_dict.ContainsKey(scada_id))
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{
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if (!(pump_dict[scada_id] > 0))
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{
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continue;
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}
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hz = pump_dict[scada_id] * 50;
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hz = Math.Round(hz.Value, 2);
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hzr = Math.Round(hz.Value);
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flag = pump_id_mapping_dict[model_id];
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}
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EpanetMethods.ENgetlinkvalue(link_index, LinkValue.Flow, out float model_value);
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model_value = Math.Abs(model_value);
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var scada_value = scada_dict[scada_id];
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var vm = new ModelDiffViewModel();
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vm.Time = time;
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vm.MonitorID = scada_id;
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vm.ModelID = model_id;
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vm.ModelValue = model_value;
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vm.MonitorValue = scada_value;
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vm.DiffVlaue = scada_value - model_value;
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vm.Type = "流量";
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vm.Hz = hz;
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vm.Hz0 = hzr;
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vm.Flag = flag;
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vm_list.Add(vm);
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}
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EpanetMethods.ENgetlinktype(link_index, out LinkType linkType);
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if (linkType == LinkType.Pump)
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{
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EpanetMethods.ENgetlinkvalue(link_index, LinkValue.InitStatus, out float on_off);
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}
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}
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}
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EpanetMethods.ENcloseH();
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EpanetMethods.ENclose();
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if (!vm_list.Any())
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return default;
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var analysis_facotr_list = new List<AnalysisFactor>();
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var group_by_flag_hz = vm_list.Where(x => x.Type == "压力" && x.Flag.HasValue).GroupBy(x => new { x.Flag, x.Hz0 });
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foreach (var flag_item in group_by_flag_hz)
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{
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var hz = flag_item.Key.Hz0.Value;
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if (hz < 20)
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{
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continue;
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}
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var flag = flag_item.Key.Flag.Value;
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var pump = flag_pump_dict[flag];
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var qh = flag_curve_dict[flag];
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var head_diff_list = flag_item.Select(x => x.DiffVlaue).ToList();
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double head_diff_avg = 0d, std_dev_pop = 0d, std_dev_pop_head_avg = 0d;
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var filter_std_dev_pop_tuple = FilterBySTDP(head_diff_list.ToArray(), 0.3, 0);
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var filter_std_dev_pop_array = filter_std_dev_pop_tuple.Item1;
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std_dev_pop = filter_std_dev_pop_tuple.Item2;
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std_dev_pop_head_avg = filter_std_dev_pop_array.Average();
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head_diff_avg = std_dev_pop_head_avg;
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if (Math.Abs(head_diff_avg) > 5)
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{
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continue;
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}
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if (std_dev_pop > 1)
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{
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continue;
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}
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if (std_dev_pop > 0.5 && flag_item.Count() < 5)
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{
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continue;
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}
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var analysis_facotr = new AnalysisFactor();
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analysis_facotr.Flag = flag;
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analysis_facotr.Hz = hz;
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analysis_facotr.HeadSTDP = std_dev_pop;
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analysis_facotr.HeadDeviation = std_dev_pop_head_avg;
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analysis_facotr.Accuracy = 0;
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analysis_facotr_list.Add(analysis_facotr);
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}
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analysis_facotr_list = analysis_facotr_list.OrderBy(x => x.Flag).ThenBy(x => x.Hz).ToList();
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var flag_range5_hz_factor_dict = new Dictionary<int, Dictionary<double, Tuple<double, double, int>>>();
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var group_by_flag = vm_list.Where(x => x.Type == "压力" && x.Flag.HasValue).GroupBy(x => x.Flag);
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foreach (var flag_item in group_by_flag)
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{
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var flag = flag_item.Key.Value;
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var pump = flag_pump_dict[flag];
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var qh = flag_curve_dict[flag];
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if (!pump.IsBp)
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{
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continue;
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}
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flag_range5_hz_factor_dict.Add(flag, new Dictionary<double, Tuple<double, double, int>>());
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for (double i = 5; i <= 50; i += 5)
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{
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var min_hz = i - 5;
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double max_hz = i;
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var list = flag_item.Where(x => x.Hz >= min_hz && x.Hz <= max_hz).ToList();
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if (list == null || list.Count() < 5)
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continue;
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var head_diff_list = list.Select(x => x.DiffVlaue).ToList();
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double std_dev_pop = 0d, std_dev_pop_head_avg = 0d;
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var filter_tuple = FilterBySTDP(head_diff_list.ToArray(), 0.3, 0);
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var filter_array = filter_tuple.Item1;
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std_dev_pop = filter_tuple.Item2;
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std_dev_pop_head_avg = filter_array.Average();
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flag_range5_hz_factor_dict[flag].Add(max_hz, new Tuple<double, double, int>(std_dev_pop, std_dev_pop_head_avg, filter_array.Count()));
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}
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}
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var not_hz_list = new List<AnalysisFactor>();
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foreach (var eq in eq_list)
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{
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var flag = eq.SortCode;
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var pump = flag_pump_dict[flag];
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if (!pump.IsBp)
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{
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continue;
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}
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var qh = flag_curve_dict[flag];
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var dict_item = flag_range5_hz_factor_dict[flag];
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for (int hz = 1; hz <= 50; hz++)
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{
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if (analysis_facotr_list.Exists(x => x.Flag == flag && x.Hz == hz))
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{
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continue;
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}
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var num = hz / 5;
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var hz_key = (num + 1) * 5;
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if (hz_key > 50)
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hz_key = 50;
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if (dict_item.ContainsKey(hz_key))
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{
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var tuple = dict_item[hz_key];
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var analysis_facotr = new AnalysisFactor();
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analysis_facotr.Flag = flag;
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analysis_facotr.Hz = hz;
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analysis_facotr.HeadSTDP = tuple.Item1;
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analysis_facotr.HeadDeviation = tuple.Item2;
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analysis_facotr.Accuracy = 0;
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not_hz_list.Add(analysis_facotr);
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}
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else
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{
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var key_list = dict_item.Select(x => x.Key).ToList();
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var key = key_list.Where(x => x >= hz_key)?.OrderBy(x => x).FirstOrDefault();
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if (key == null)
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{
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key = key_list.OrderByDescending(x => x).FirstOrDefault();
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}
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if (key == null)
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{
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throw new Exception("error");
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}
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var tuple = dict_item[key.Value];
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double ratio = hz / key.Value;
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double head_dev = tuple.Item2 * ratio;
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double head_stdp = tuple.Item1 * ratio;
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var analysis_facotr = new AnalysisFactor();
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analysis_facotr.Flag = flag;
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analysis_facotr.Hz = hz;
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analysis_facotr.HeadSTDP = head_stdp;
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analysis_facotr.HeadDeviation = head_dev;
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analysis_facotr.Accuracy = -1;
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not_hz_list.Add(analysis_facotr);
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}
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}
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}
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var analysis_factor_list = new List<AnalysisFactor>();
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analysis_factor_list.AddRange(analysis_facotr_list);
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analysis_factor_list.AddRange(not_hz_list);
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var root_folder = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "分析系数");
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if (!Directory.Exists(root_folder))
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{
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Directory.CreateDirectory(root_folder);
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}
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var fileName = root_folder + "\\" + name + ".json";
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var json = JsonHelper.Object2Json(analysis_factor_list);
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File.WriteAllText(fileName, json);
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return true;
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}
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#region Function
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private static List<Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>>> Get(long monitorDataSourcesId, long stationId, int station_index, int timeStep = 300)
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{
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var bllSummary = new BLL.MonitorDataSetSummary();
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var yearMonths = bllSummary.GetYearMonth(monitorDataSourcesId);
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if (yearMonths == null || !yearMonths.Any())
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{
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return default;
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}
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var bllEquipment = new BLL.Equipment();
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var enginePumps = bllEquipment.GetEnginePumpListByBelongTypeAndBelongID(IStation.ObjectType.Station, stationId);
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if (enginePumps == null || !enginePumps.Any())
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return default;
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var bllMonitorPoint = new BLL.MonitorPoint();
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var bllEquipmentMonitorMapping = new BLL.EquipmentMonitorMapping();
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var bllMonitorDataSet = new BLL.MonitorDataSet();
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var pumpParasDict = new Dictionary<int, Model.Pump>();
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var pumpMonitorPointDict = new Dictionary<int, List<Model.MonitorPointExSignalWithSignalType>>();
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var stationMonitorPointList = new List<Model.MonitorPointExSignalWithSignalType>();
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var signalIds = new List<long>();
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foreach (var enginePump in enginePumps)
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{
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var pump = bllEquipment.GetChildPumpByEnginePumpID(enginePump.ID);
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if (pump == null)
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continue;
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var equipmentMonitorMappings = bllEquipmentMonitorMapping.GetByEquipmentID(enginePump.ID);
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if (equipmentMonitorMappings == null || !equipmentMonitorMappings.Any())
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continue;
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var monitorPointIds = equipmentMonitorMappings.Select(x => x.MonitorPointID).ToList();
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var monitorPoints = bllMonitorPoint.GetExSignalWithSignalTypeByIds(monitorPointIds);
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monitorPoints = monitorPoints?.Where(x => !string.IsNullOrEmpty(x.TagName)).ToList();
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monitorPoints = monitorPoints?.Where(x => x.SignalType != IStation.SignalType.频率).ToList();
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monitorPoints = monitorPoints?.Where(x => x.Flags != null && !x.Flags.Contains(Flags.总站)).ToList();
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if (monitorPoints == null || !monitorPoints.Any())
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continue;
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pumpParasDict.Add(enginePump.SortCode, pump.RatedParas);
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pumpMonitorPointDict.Add(enginePump.SortCode, monitorPoints);
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signalIds.AddRange(monitorPoints.Select(x => x.SignalID));
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}
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var monitorPoints_station = bllMonitorPoint.GetExSignalWithSignalTypeByBelongTypeAndBelongID(IStation.ObjectType.Station, stationId);
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monitorPoints_station = monitorPoints_station?.Where(x => !string.IsNullOrEmpty(x.TagName)).ToList();
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stationMonitorPointList = monitorPoints_station?
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.Where(x => x.Flags != null && x.Flags.Contains(IStation.Flags.总站)).ToList();
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if (stationMonitorPointList != null && stationMonitorPointList.Any())
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{
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signalIds.AddRange(stationMonitorPointList.Select(x => x.SignalID));
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}
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signalIds = signalIds.Distinct().ToList();
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var pressure_monitor_points = monitorPoints_station.Where(x => x.SignalType == IStation.SignalType.压力).ToList();
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var flow_monitor_points = monitorPoints_station.Where(x => x.SignalType == IStation.SignalType.瞬时流量).ToList();
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var list = new List<Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>>>();
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foreach (var yearMonth in yearMonths)
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{
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var year = yearMonth.Year;
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var month = yearMonth.Month;
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var summaries = bllSummary.GetAllByDate(monitorDataSourcesId, year, month);
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if (summaries == null || !summaries.Any())
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return default;
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var minTime = summaries.Min(x => x.MinTime);
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var maxTime = summaries.Max(x => x.MaxTime);
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var totalSeconds = (int)(maxTime - minTime).TotalSeconds;
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var startDay = minTime;//.AddDays(1);
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var days = (maxTime - minTime).Days;
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var capacity = _packet.CalcuCapacity(days, timeStep);// 每个月的数据量
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var findIndexDict = new Dictionary<long, int>();// 查找数据下标
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var recordDict = new Dictionary<long, double>();// 数据字典
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signalIds.ForEach(x =>
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{
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findIndexDict.Add(x, 0);
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recordDict.Add(x, IStation.Error.Default);
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});
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var signalRecordPackets = bllMonitorDataSet.GetSignalRecordPacket(monitorDataSourcesId, signalIds, year, month);
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if (signalRecordPackets == null || !signalRecordPackets.Any())
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return default;
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//按天整理数据
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for (int i = 0; i <= days; i++)
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{
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var day = startDay.AddDays(i);
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//分割步长
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for (int seconds = 0; seconds < _packet.TotalSecondsOfDay; seconds += timeStep) //00点的数据不要
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{
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var realTime = day.AddSeconds(seconds);
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_packet.GetRecordDict(realTime, signalRecordPackets, findIndexDict, recordDict, timeStep, out bool existRecord);
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if (!existRecord)
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continue;
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var timeValue = new ExportEpanetHelper.TimeValue
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{
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Time = realTime,
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Value = new Dictionary<string, double>()
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};
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if (stationMonitorPointList != null && stationMonitorPointList.Any())
|
{
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foreach (var stationMonitorPoint in stationMonitorPointList)
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{
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var time = realTime;
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var value = recordDict[stationMonitorPoint.SignalID];
|
if (stationMonitorPoint.SignalType == IStation.SignalType.压力)
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{
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value = Model.CurveCalcuHelper.Mpa2M(value);
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}
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else if (stationMonitorPoint.SignalType == IStation.SignalType.瞬时流量)
|
{
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value = value < 0 ? 0 : value;
|
}
|
timeValue.Value.Add(stationMonitorPoint.TagName, value);
|
}
|
}
|
|
foreach (var pumpMonitorPointItem in pumpMonitorPointDict)
|
{
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var key = pumpMonitorPointItem.Key;
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var pumpParas = pumpParasDict[key];
|
var pumpMonitorPointList = pumpMonitorPointItem.Value;
|
foreach (var pumpMonitorPoint in pumpMonitorPointList)
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{
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var time = realTime;
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var value = recordDict[pumpMonitorPoint.SignalID];
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if (pumpMonitorPoint.SignalType == IStation.SignalType.转速)
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{
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value = value / pumpParas.Nr;
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value = value < 0 ? 0 : value;
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value = value > 1 ? 1 : value;
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}
|
else if (pumpMonitorPoint.SignalType == IStation.SignalType.频率)
|
{
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value = value / 50;
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value = value < 0 ? 0 : value;
|
value = value > 1 ? 1 : value;
|
}
|
else if (pumpMonitorPoint.SignalType == IStation.SignalType.压力)
|
{
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value = Model.CurveCalcuHelper.Mpa2M(value);
|
}
|
else if (pumpMonitorPoint.SignalType == IStation.SignalType.瞬时流量)
|
{
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value = value < 0 ? 0 : value;
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}
|
timeValue.Value.Add(pumpMonitorPoint.TagName, value);
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}
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}
|
|
if (station_index == 1)
|
{
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list.Add(GetStation1(realTime, timeValue.Value));
|
}
|
else
|
{
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list.Add(GetStation2(realTime, timeValue.Value));
|
}
|
|
}
|
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}
|
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}
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|
return list;
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}
|
|
private static Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>> GetStation1(DateTime dateTime, Dictionary<string, double> time_dict)
|
{
|
var pattern_dict = new Dictionary<string, float[]>();
|
var scada_dict = new Dictionary<string, double>();
|
var pump_dict = new Dictionary<string, double>();
|
var limited_speed_ratio = 0.1;
|
|
var Pump11 = time_dict["Pump11"];
|
var Pump12 = time_dict["Pump12"];
|
var Pump13 = time_dict["Pump13"];
|
var Pump14 = time_dict["Pump14"];
|
var Pump15 = time_dict["Pump15"];
|
var Pump16 = time_dict["Pump16"];
|
var Pump17 = time_dict["Pump17"];
|
var Pump18 = time_dict["Pump18"];
|
|
Pump11 = Pump11 < limited_speed_ratio ? 0 : Pump11;
|
Pump12 = Pump12 < limited_speed_ratio ? 0 : Pump12;
|
Pump13 = Pump13 < limited_speed_ratio ? 0 : Pump13;
|
Pump14 = Pump14 < limited_speed_ratio ? 0 : Pump14;
|
Pump15 = Pump15 < limited_speed_ratio ? 0 : Pump15;
|
Pump16 = Pump16 < limited_speed_ratio ? 0 : Pump16;
|
Pump17 = Pump17 < limited_speed_ratio ? 0 : Pump17;
|
Pump18 = Pump18 < limited_speed_ratio ? 0 : Pump18;
|
|
|
pattern_dict.Add("R1", new float[] { (float)time_dict["R1"] });
|
pattern_dict.Add("R2", new float[] { (float)time_dict["R2"] });
|
pattern_dict.Add("R3", new float[] { (float)time_dict["R3"] });
|
pattern_dict.Add("SFJD1", new float[] { (float)time_dict["SFJD1"] });
|
pattern_dict.Add("SFJD2", new float[] { (float)time_dict["SFJD2"] });
|
pattern_dict.Add("SFJD3", new float[] { (float)time_dict["SFJD3"] });
|
pattern_dict.Add("Pump11", new float[] { (float)Pump11 });
|
pattern_dict.Add("Pump12", new float[] { (float)Pump12 });
|
pattern_dict.Add("Pump13", new float[] { (float)Pump13 });
|
pattern_dict.Add("Pump14", new float[] { (float)Pump14 });
|
pattern_dict.Add("Pump15", new float[] { (float)Pump15 });
|
pattern_dict.Add("Pump16", new float[] { (float)Pump16 });
|
pattern_dict.Add("Pump17", new float[] { (float)Pump17 });
|
pattern_dict.Add("Pump18", new float[] { (float)Pump18 });
|
|
scada_dict.Add("SPJD1", time_dict["SPJD1"]);
|
scada_dict.Add("SPJD2", time_dict["SPJD2"]);
|
scada_dict.Add("SPJD3", time_dict["SPJD3"]);
|
scada_dict.Add("SFJD1", time_dict["SFJD1"]);
|
scada_dict.Add("SFJD2", time_dict["SFJD2"]);
|
scada_dict.Add("SFJD3", time_dict["SFJD3"]);
|
scada_dict.Add("SPPump11", time_dict["SPPump11"]);
|
scada_dict.Add("SPPump12", time_dict["SPPump12"]);
|
scada_dict.Add("SPPump13", time_dict["SPPump13"]);
|
scada_dict.Add("SPPump14", time_dict["SPPump14"]);
|
scada_dict.Add("SPPump15", time_dict["SPPump15"]);
|
scada_dict.Add("SPPump16", time_dict["SPPump16"]);
|
scada_dict.Add("SPPump17", time_dict["SPPump17"]);
|
scada_dict.Add("SPPump18", time_dict["SPPump18"]);
|
|
pump_dict.Add("SPPump11", Pump11);
|
pump_dict.Add("SPPump12", Pump12);
|
pump_dict.Add("SPPump13", Pump13);
|
pump_dict.Add("SPPump14", Pump14);
|
pump_dict.Add("SPPump15", Pump15);
|
pump_dict.Add("SPPump16", Pump16);
|
pump_dict.Add("SPPump17", Pump17);
|
pump_dict.Add("SPPump18", Pump18);
|
|
|
return new Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>>(dateTime, pattern_dict, scada_dict, pump_dict);
|
}
|
|
private static Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>> GetStation2(DateTime dateTime, Dictionary<string, double> time_dict)
|
{
|
var pattern_dict = new Dictionary<string, float[]>();
|
var scada_dict = new Dictionary<string, double>();
|
var pump_dict = new Dictionary<string, double>();
|
var limited_speed_ratio = 0.1;
|
|
|
var Pump21 = time_dict["Pump21"];
|
var Pump22 = time_dict["Pump22"];
|
var Pump23 = time_dict["Pump23"];
|
var Pump24 = time_dict["Pump24"];
|
var Pump25 = time_dict["Pump25"];
|
var Pump26 = time_dict["Pump26"];
|
var Pump27 = time_dict["Pump27"];
|
|
|
Pump21 = Pump21 < limited_speed_ratio ? 0 : Pump21;
|
Pump22 = Pump22 < limited_speed_ratio ? 0 : Pump22;
|
Pump23 = Pump23 < limited_speed_ratio ? 0 : Pump23;
|
Pump24 = Pump24 < limited_speed_ratio ? 0 : Pump24;
|
Pump25 = Pump25 < limited_speed_ratio ? 0 : Pump25;
|
Pump26 = Pump26 < limited_speed_ratio ? 0 : Pump26;
|
Pump27 = Pump27 < limited_speed_ratio ? 0 : Pump27;
|
|
|
pattern_dict.Add("RPump21", new float[] { (float)time_dict["RPump21"] });
|
pattern_dict.Add("RPump22", new float[] { (float)time_dict["RPump22"] });
|
pattern_dict.Add("RPump23", new float[] { (float)time_dict["RPump23"] });
|
pattern_dict.Add("RPump24", new float[] { (float)time_dict["RPump24"] });
|
pattern_dict.Add("RPump25", new float[] { (float)time_dict["RPump25"] });
|
pattern_dict.Add("RPump26", new float[] { (float)time_dict["RPump26"] });
|
pattern_dict.Add("RPump27", new float[] { (float)time_dict["RPump27"] });
|
|
|
pattern_dict.Add("SFDN2400", new float[] { (float)time_dict["SFDN2400"] });
|
pattern_dict.Add("SFDN2700", new float[] { (float)time_dict["SFDN2700"] });
|
pattern_dict.Add("SFPump21", new float[] { (float)time_dict["SFPump21"] });
|
pattern_dict.Add("SFPump22", new float[] { (float)time_dict["SFPump22"] });
|
pattern_dict.Add("SFPump23", new float[] { (float)time_dict["SFPump23"] });
|
pattern_dict.Add("SFPump24", new float[] { (float)time_dict["SFPump24"] });
|
pattern_dict.Add("SFPump25", new float[] { (float)time_dict["SFPump25"] });
|
pattern_dict.Add("SFPump26", new float[] { (float)time_dict["SFPump26"] });
|
pattern_dict.Add("SFPump27", new float[] { (float)time_dict["SFPump27"] });
|
|
|
pattern_dict.Add("Pump21", new float[] { (float)Pump21 });
|
pattern_dict.Add("Pump22", new float[] { (float)Pump22 });
|
pattern_dict.Add("Pump23", new float[] { (float)Pump23 });
|
pattern_dict.Add("Pump24", new float[] { (float)Pump24 });
|
pattern_dict.Add("Pump25", new float[] { (float)Pump25 });
|
pattern_dict.Add("Pump26", new float[] { (float)Pump26 });
|
pattern_dict.Add("Pump27", new float[] { (float)(double)time_dict["Pump27"] });
|
|
|
|
scada_dict.Add("SPDN2400", time_dict["SPDN2400"]);
|
scada_dict.Add("SPDN2700", time_dict["SPDN2700"]);
|
scada_dict.Add("SPPump21", time_dict["SPPump21"]);
|
scada_dict.Add("SPPump22", time_dict["SPPump22"]);
|
scada_dict.Add("SPPump23", time_dict["SPPump23"]);
|
scada_dict.Add("SPPump24", time_dict["SPPump24"]);
|
scada_dict.Add("SPPump25", time_dict["SPPump25"]);
|
scada_dict.Add("SPPump26", time_dict["SPPump26"]);
|
scada_dict.Add("SPPump27", time_dict["SPPump27"]);
|
|
scada_dict.Add("SFDN2400", time_dict["SFDN2400"]);
|
scada_dict.Add("SFDN2700", time_dict["SFDN2700"]);
|
//scada_dict.Add("SFPump21", time_dict["SFPump21"]);
|
//scada_dict.Add("SFPump22", time_dict["SFPump22"]);
|
//scada_dict.Add("SFPump23", time_dict["SFPump23"]);
|
//scada_dict.Add("SFPump24", time_dict["SFPump24"]);
|
//scada_dict.Add("SFPump25", time_dict["SFPump25"]);
|
//scada_dict.Add("SFPump26", time_dict["SFPump26"]);
|
//scada_dict.Add("SFPump27", time_dict["SFPump27"]);
|
|
|
pump_dict.Add("SPPump21", Pump21);
|
pump_dict.Add("SPPump22", Pump22);
|
pump_dict.Add("SPPump23", Pump23);
|
pump_dict.Add("SPPump24", Pump24);
|
pump_dict.Add("SPPump25", Pump25);
|
pump_dict.Add("SPPump26", Pump26);
|
pump_dict.Add("SPPump27", Pump27);
|
|
|
pump_dict.Add("SFPump21", Pump21);
|
pump_dict.Add("SFPump22", Pump22);
|
pump_dict.Add("SFPump23", Pump23);
|
pump_dict.Add("SFPump24", Pump24);
|
pump_dict.Add("SFPump25", Pump25);
|
pump_dict.Add("SFPump26", Pump26);
|
pump_dict.Add("SFPump27", Pump27);
|
|
return new Tuple<DateTime, Dictionary<string, float[]>, Dictionary<string, double>, Dictionary<string, double>>(dateTime, pattern_dict, scada_dict, pump_dict);
|
}
|
|
private static Dictionary<string, string> GetPumpPressureIdMappingDict(int station_index)
|
{
|
var dict = new Dictionary<string, string>();
|
if (station_index == 1)
|
{
|
dict = new Dictionary<string, string>()
|
{
|
{ "Jjd1", "SPJD1"},
|
{ "Jjd2", "SPJD2"},
|
{ "Jjd3", "SPJD3"},
|
{"Jpump11","SPPump11"},
|
{"Jpump12","SPPump12"},
|
{"Jpump13","SPPump13"},
|
{"Jpump14","SPPump14"},
|
{"Jpump15","SPPump15"},
|
{"Jpump16","SPPump16"},
|
{"Jpump17","SPPump17"},
|
{"Jpump18","SPPump18"},
|
};
|
|
}
|
else
|
{
|
dict = new Dictionary<string, string>()
|
{
|
{"Jdn2400","SPDN2400"},
|
{"Jdn2700","SPDN2700"},
|
{"Jpump21","SPPump21"},
|
{"Jpump22","SPPump22"},
|
{"Jpump23","SPPump23"},
|
{"Jpump24","SPPump24"},
|
{"Jpump25","SPPump25"},
|
{"Jpump26","SPPump26"},
|
{"Jpump27","SPPump27"}
|
};
|
}
|
return dict;
|
}
|
|
private static Dictionary<string, string> GetPumpFlowIdMappingDict(int station_index)
|
{
|
var dict = new Dictionary<string, string>();
|
if (station_index == 1)
|
{
|
dict = new Dictionary<string, string>()
|
{
|
{ "Pjd1", "SFJD1"},
|
{ "Pjd2", "SFJD2"},
|
{ "Pjd3", "SFJD3"},
|
};
|
}
|
else
|
{
|
dict = new Dictionary<string, string>()
|
{
|
{ "Pdn2400", "SFDN2400"},
|
{ "Pdn2700", "SFDN2700"},
|
//{ "Ppump21", "SFPump21"},
|
//{ "Ppump22", "SFPump22"},
|
//{ "Ppump23", "SFPump23"},
|
//{ "Ppump24", "SFPump24"},
|
//{ "Ppump25", "SFPump25"},
|
//{ "Ppump26", "SFPump26"},
|
//{ "Ppump27", "SFPump27"}
|
};
|
}
|
return dict;
|
}
|
|
private static Dictionary<string, int> GetPumpIdMappingDict(int station_index)
|
{
|
var dict = new Dictionary<string, int>();
|
if (station_index == 1)
|
{
|
dict = new Dictionary<string, int>()
|
{
|
{"Jpump11",GlobalHelperW.Flag11},
|
{"Jpump12",GlobalHelperW.Flag12},
|
{"Jpump13",GlobalHelperW.Flag13},
|
{"Jpump14",GlobalHelperW.Flag14},
|
{"Jpump15",GlobalHelperW.Flag15},
|
{"Jpump16",GlobalHelperW.Flag16},
|
{"Jpump17",GlobalHelperW.Flag17},
|
{"Jpump18",GlobalHelperW.Flag18},
|
};
|
}
|
else
|
{
|
dict = new Dictionary<string, int>()
|
{
|
{ "Ppump21", GlobalHelperW.Flag21},
|
{ "Ppump22", GlobalHelperW.Flag22},
|
{ "Ppump23", GlobalHelperW.Flag23},
|
{ "Ppump24", GlobalHelperW.Flag24},
|
{ "Ppump25", GlobalHelperW.Flag25},
|
{ "Ppump26", GlobalHelperW.Flag26},
|
{ "Ppump27", GlobalHelperW.Flag27},
|
{"Jpump21",GlobalHelperW.Flag21},
|
{"Jpump22",GlobalHelperW.Flag22},
|
{"Jpump23",GlobalHelperW.Flag23},
|
{"Jpump24",GlobalHelperW.Flag24},
|
{"Jpump25",GlobalHelperW.Flag25},
|
{"Jpump26",GlobalHelperW.Flag26},
|
{"Jpump27",GlobalHelperW.Flag27}
|
};
|
}
|
return dict;
|
}
|
|
private static Tuple<double[], double> FilterBySTDP(double[] array, double min_dev, int count)
|
{
|
if (array == null || !array.Any())
|
{
|
return default;
|
}
|
var array_avg = array.Average();
|
var array_count = array.Count();
|
|
|
FilterOutliersHelper.STDEV(array, out double std_dev, out double std_dev_pop);
|
if (Math.Abs(std_dev_pop) < min_dev)
|
{
|
return new Tuple<double[], double>(array, std_dev_pop);
|
}
|
if (count > 5)
|
{
|
return new Tuple<double[], double>(array, std_dev_pop);
|
}
|
var filter_array = array.Where(x => !(Math.Abs(x - array_avg) > Math.Abs(std_dev_pop * 2))).ToArray();
|
if (filter_array == null || !filter_array.Any())
|
{
|
return default;
|
}
|
count++;
|
return FilterBySTDP(filter_array, min_dev, count);
|
}
|
|
|
#endregion
|
|
}
|
}
|
