Exemple #1
0
        protected override void SolveInstance(IGH_DataAccess DA)
        {
            List<DHr> dhrs = new List<DHr>();
            string period_string = "";
            if ((DA.GetDataList(0, dhrs)) && (DA.GetData(1, ref period_string))) {
                if (period_string == "") { return; }
                period_string = period_string.ToLowerInvariant().Trim();
                this.cycle_type = CType.Invalid;
                if (period_string.Contains("year")) { this.cycle_type = CType.Yearly; } else if (period_string.Contains("monthly diurnal")) { this.cycle_type = CType.MonthlyDiurnal; } else if (period_string.Contains("month")) { this.cycle_type = CType.Monthly; } else if (period_string.Contains("day") || period_string.Contains("daily")) { this.cycle_type = CType.Daily; } else if (period_string.Contains("weekly diurnal")) { this.cycle_type = CType.WeeklyDiurnal; } else if (period_string.Contains("weekly")) { this.cycle_type = CType.Weekly; } else {
                    this.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "I don't understand the time period you're looking for.\nPlease choose 'yearly', 'monthly', 'monthly diurnal', 'weekly', 'weekly diurnal', or 'daily'.");
                }

                string[] commonKeys = DHr.commonkeys(dhrs.ToArray());
                Dictionary<string, List<DHr>> stat_hours = new Dictionary<string, List<DHr>>();
                InitStatHours(ref stat_hours);

                HourMask mask = new HourMask();

                switch (this.cycle_type) {

                    case CType.MonthlyDiurnal:
                    case CType.WeeklyDiurnal:
                        Grasshopper.Kernel.Data.GH_Structure<DHr> meanTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> modeTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> highTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> uqTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> medianTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> lqTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> lowTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();
                        Grasshopper.Kernel.Data.GH_Structure<DHr> sumTree = new Grasshopper.Kernel.Data.GH_Structure<DHr>();

                        switch (this.cycle_type) {
                            case CType.MonthlyDiurnal:
                                for (int mth = 0; mth < 12; mth++) {
                                    InitStatHours(ref stat_hours);
                                    for (int hour = 0; hour < 24; hour++) {
                                        mask.maskByMonthAndHour(mth, hour);
                                        int hh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddMonths(mth).AddHours(hour)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                                        CalculateStats(dhrs, commonKeys, stat_hours, mask, hh, true);
                                    }
                                    meanTree.AppendRange(stat_hours["meanHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    modeTree.AppendRange(stat_hours["modeHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    highTree.AppendRange(stat_hours["highHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    uqTree.AppendRange(stat_hours["uqHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    medianTree.AppendRange(stat_hours["medianHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    lqTree.AppendRange(stat_hours["lqHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    lowTree.AppendRange(stat_hours["lowHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                    sumTree.AppendRange(stat_hours["sumHrs"], new Grasshopper.Kernel.Data.GH_Path(mth));
                                }
                                break;
                            case CType.WeeklyDiurnal:
                                for (int wk = 0; wk < 52; wk++) {
                                    InitStatHours(ref stat_hours);
                                    for (int hour = 0; hour < 24; hour++) {
                                        mask.maskByWeekAndHour(wk, hour);
                                        int hh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddDays(wk * 7).AddHours(hour)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                                        CalculateStats(dhrs, commonKeys, stat_hours, mask, hh, true);
                                    }
                                    meanTree.AppendRange(stat_hours["meanHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    modeTree.AppendRange(stat_hours["modeHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    highTree.AppendRange(stat_hours["highHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    uqTree.AppendRange(stat_hours["uqHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    medianTree.AppendRange(stat_hours["medianHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    lqTree.AppendRange(stat_hours["lqHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    lowTree.AppendRange(stat_hours["lowHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                    sumTree.AppendRange(stat_hours["sumHrs"], new Grasshopper.Kernel.Data.GH_Path(wk));
                                }
                                break;
                        }
                        DA.SetDataTree(0, meanTree);
                        DA.SetDataTree(1, modeTree);
                        DA.SetDataTree(2, highTree);
                        DA.SetDataTree(3, uqTree);
                        DA.SetDataTree(4, medianTree);
                        DA.SetDataTree(5, lqTree);
                        DA.SetDataTree(6, lowTree);
                        DA.SetDataTree(7, sumTree);
                        break;

                    case CType.Daily:
                        for (int day = 0; day < 365; day++) {
                            mask.maskByDayOfYear(day, day); // passing in same day twice masks to this single day
                            int hh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddDays(day).AddHours(0)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                            CalculateStats(dhrs, commonKeys, stat_hours, mask, hh, true);
                        }
                        SetOutputData(DA, stat_hours);
                        break;

                    case CType.Weekly:
                        for (int wk = 0; wk < 52; wk++) {
                            mask.maskByWeek(wk);
                            int hh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddDays(wk * 7).AddHours(0)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                            CalculateStats(dhrs, commonKeys, stat_hours, mask, hh, true);
                        }
                        SetOutputData(DA, stat_hours);
                        break;

                    case CType.Monthly:
                        for (int mth = 0; mth < 12; mth++) {
                            mask.maskByMonthOfYear(mth);
                            int hh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddMonths(mth).AddHours(0)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                            CalculateStats(dhrs, commonKeys, stat_hours, mask, hh, true);
                        }
                        SetOutputData(DA, stat_hours);
                        break;

                    case CType.Yearly:
                        mask.fillMask(true); // all hours may pass
                        int hhh = Util.hourOfYearFromDatetime(Util.baseDatetime().AddMonths(6).AddDays(15).AddHours(0)) + 1; // had to add one, looks like Util function was designed for parsing non-zero-indexed hours
                        CalculateStats(dhrs, commonKeys, stat_hours, mask, hhh, true);
                        SetOutputData(DA, stat_hours);
                        break;
                    default:
                        this.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Time period option not yet implimented.  Cannot produce statistics.");
                        break;
                }

            }
        }
Exemple #2
0
 protected override void SolveInstance(IGH_DataAccess DA)
 {
     List<DHr> hrsIn = new List<DHr>();
     HourMask mask = new HourMask();
     mask.fillMask(true);
     DA.GetData(1, ref mask);
     if (DA.GetDataList(0, hrsIn)) {
         List<DHr> hrsOut = new List<DHr>();
         foreach (DHr hour in hrsIn) if (mask.eval(hour)) hrsOut.Add(hour);
         DA.SetDataList(0, hrsOut);
     }
 }