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#region Import libs
# python libs
from SobekWorkshopHelperFunctions import *
# .Net libs
from System import DateTime, Double
from System.Collections.Generic import List
# DeltaShell libs
from SharpMap import Map
from DelftTools.Shell.Core.Workflow import ActivityRunner
from DeltaShell.Plugins.SharpMapGis.ImportExport import CsvFunctionExporter
from DeltaShell.Plugins.DelftModels.WaterFlowModel.DataObjects import WaterFlowModel1DBoundaryNodeDataType
#endregion
rootPath = "D:\\scripting\\"
# Import of csv (station data)
CsvPath = rootPath + "waterflow_at_6_Measured.csv"
measuredTimeSeries = ImportCsvTimeSeries(CsvPath, "Time", "Value" ,"dd-M-yyyy H:mm:ss")
measuredTimeSeries.Components[0].Name = "Measured time series"
ModelPath = rootPath + "SW_max.lit\\2\\"
# Read hisfile waterlevel time series
hisTimeSeries = GetHisFileTimeSeriesForLocation(ModelPath + "calcpnt.his", "6")
# Import SOBEK 2.13 model (Maas)
model = ImportSobek2Model(ModelPath + "NETWORK.TP",False,True,False,False)
waterFlowModel = GetItemByName(model.Models, "water flow 1d")
waterFlowModel.Network.CoordinateSystem = Map.CoordinateSystemFactory.CreateFromEPSG(28992) #RD new
# Run model
ActivityRunner.RunActivity(waterFlowModel)
# Get timeseries at calculation point P_1128
calculationPoint = GetItemByName(waterFlowModel.NetworkDiscretization.Locations.Values, "6")
timeSeriesBase = waterFlowModel.OutputWaterLevel.GetTimeSeries(calculationPoint)
timeSeriesBase.Components[0].Name = "Base time series"
# Create time series list containing all timeseries to compare
timeSeriesToCompare = List[TimeSeries]()
timeSeriesToCompare.Add(measuredTimeSeries)
timeSeriesToCompare.Add(hisTimeSeries)
timeSeriesToCompare.Add(timeSeriesBase)
# Run loop with changing boundary data
boundary = GetItemByName(waterFlowModel.BoundaryConditions, "Hancate - Q :0 m^3/s")
boundary.DataType = WaterFlowModel1DBoundaryNodeDataType.FlowConstant
for i in range(1,4): # 1, 2, 3
boundary.Flow = 30.0 * i
ActivityRunner.RunActivity(waterFlowModel)
timeSeries = waterFlowModel.OutputWaterLevel.GetTimeSeries(calculationPoint)
timeSeries.Components[0].Name = "Case " + str(i) + " : N_001 flow " + str(boundary.Flow)
timeSeriesToCompare.Add(timeSeries)
# show in chart
Gui.DocumentViewsResolver.OpenViewForData(timeSeriesToCompare)
# export time series to csv
exporter = CsvFunctionExporter()
index = 0
for ts in timeSeriesToCompare:
exporter.Export(ts, rootPath + "waterflow_at_6_" + str(index) + ".csv")
index += 1