コード例 #1
0
ファイル: LakeTest.cs プロジェクト: XiBeichuan/hydronumerics
    public void RoutingOfGroundwaterTest()
    {

      Lake S = new Lake("L",100);

      S.SetState("Initial", DateTime.Now, new WaterPacket(100));

      Lake storage = new Lake("Storage",10000);
      S.AddDownStreamWaterBody(storage);

      TimeSpan ts = new TimeSpan(1,0,0);

      int Id = 2;
      IWaterPacket expected = new WaterPacket(Id, 200);
      IWaterPacket actual;

      S.WaterLevel = 8;
      GroundWaterBoundary b = new GroundWaterBoundary(S, 0.001, 100, 10, XYPolygon.GetSquare(2.5));
      b.WaterSample = expected;
      S.GroundwaterBoundaries.Add(b);
      S.Update(S.CurrentTime.Add(ts));

      actual = storage.CurrentStoredWater;
      double ExpectedVolume = b.GetSourceWater(DateTime.Now, ts).Volume;

      Assert.AreEqual(expected.Composition.Keys.First(), actual.Composition.Keys.First());
      Assert.AreEqual(ExpectedVolume, actual.Volume, 0.000001);

      S.Update(S.CurrentTime.Add(new TimeSpan(2,0,0)));

      actual = storage.CurrentStoredWater;
      Assert.AreEqual(expected.Composition.Keys.First(), actual.Composition.Keys.First());
      Assert.AreEqual(0.54, actual.Volume, 0.000001);

      S.AddWaterPacket(DateTime.Now, DateTime.Now, expected);
      S.Update(S.CurrentTime.Add(new TimeSpan(2, 0, 0)));
      actual = storage.CurrentStoredWater;

      Assert.AreEqual(200.9, actual.Volume, 0.000001);


    }
コード例 #2
0
ファイル: LakeTest.cs プロジェクト: XiBeichuan/hydronumerics
    public void RadonDeg()
    {
      var rn =ChemicalFactory.Instance.GetChemical(ChemicalNames.Radon);
      var cl =ChemicalFactory.Instance.GetChemical(ChemicalNames.Cl);

      DateTime Start = new DateTime(2005,1,1);
      Lake L = new Lake("test", 10);
      L.SetState("Initial", Start, new WaterPacket(0));
      SinkSourceBoundary sb = new SinkSourceBoundary(10.0 / 86400);
      ((WaterPacket)sb.WaterSample).AddChemical(rn, 2.3);
      ((WaterPacket)sb.WaterSample).AddChemical(cl, 2.3);
      L.Sources.Add(sb);
      L.Output.LogAllChemicals = true;
      L.Output.LogComposition = true;

      Model M = new Model();
      M._waterBodies.Add(L);
      M.Save("temp.xml");

      L.Update(Start.AddDays(1));

      Assert.AreEqual(2.3, L.Output.ChemicalsToLog[cl].GetSiValue(L.CurrentTime),1e-5);
      Assert.AreNotEqual(2.3, L.Output.ChemicalsToLog[rn].GetSiValue(L.CurrentTime), 1e-5);

      var M2 = ModelFactory.GetModel("temp.xml");
      Lake L2 = M2._waterBodies.First() as Lake;

      L2.Update(Start.AddDays(1));

      Assert.AreEqual(2.3, L2.Output.ChemicalsToLog[cl].GetSiValue(L2.CurrentTime), 1e-5);
      Assert.AreNotEqual(2.3, L2.Output.ChemicalsToLog[rn].GetSiValue(L2.CurrentTime), 1e-5);
    
    
    }
コード例 #3
0
ファイル: LakeTest.cs プロジェクト: XiBeichuan/hydronumerics
    public void RoutingOfRecievedWaterTest()
    {
      Lake S = new Lake("L",100);

      DateTime Start = new DateTime(2000, 1, 1);

      S.SetState("Initial", Start, new WaterPacket(100));
      Lake storage = new Lake("storage", 10000);
      S.AddDownStreamWaterBody(storage);

      TimeSpan ts = new TimeSpan(1,0,0);

      WaterPacket WaterProvider = new WaterPacket(2, 200);
      
      IWaterPacket actual;
      S.AddWaterPacket(DateTime.Now, DateTime.Now, WaterProvider.DeepClone(200));

      S.Update(S.CurrentTime.Add(ts));

      actual = S.CurrentStoredWater;
      Assert.AreEqual(100, actual.Volume);

      Assert.AreEqual(200, storage.CurrentStoredWater.Volume);
      Assert.AreEqual(200.0/300.0, storage.CurrentStoredWater.Composition[2],0.000001);

      //In the next timestep there will be no water to route
      S.Update(S.CurrentTime.Add(ts));
      Assert.AreEqual(200, storage.CurrentStoredWater.Volume);
      Assert.AreEqual(200.0 / 300.0, storage.CurrentStoredWater.Composition[2], 0.000001);

      Assert.AreEqual(1, S.Output.GetStorageTime(Start, Start.AddHours(2)).TotalHours,0.001);

    }