public void Fertiliser_EnsureApplyWorks()
{
// Create a tree with a root node for our models.
Simulation simulation = new Simulation();
Clock clock = new Clock();
clock.StartDate = new DateTime(2015, 1, 1);
clock.EndDate = new DateTime(2015, 1, 1);
simulation.Children.Add(clock);
MockSummary summary = new MockSummary();
simulation.Children.Add(summary);
MockSoil soil = new MockSoil();
soil.Thickness = new double[] { 100, 100, 100 };
soil.NO3 = new double[] { 1, 2, 3 };
simulation.Children.Add(soil);
Fertiliser fertiliser = new Fertiliser();
fertiliser.Name = "Fertilise";
simulation.Children.Add(fertiliser);
Operations operations = new Operations();
Operation fertiliseOperation = new Operation();
fertiliseOperation.Date = "1-jan";
fertiliseOperation.Action = "[Fertilise].Apply(Amount: 100, Type:Fertiliser.Types.NO3N, Depth:300)";
operations.Schedule = new List <Operation>();
operations.Schedule.Add(fertiliseOperation);
simulation.Children.Add(operations);
simulation.Children.Add(new SoluteManager());
ISimulationEngine simulationEngine = Simulations.Create(new Model[] { simulation });
simulationEngine.Run(simulation, doClone: false);
Assert.AreEqual(soil.NO3, new double[] { 1, 2, 103 });
Assert.AreEqual(MockSummary.messages[0], "100 kg/ha of NO3N added at depth 300 layer 3");
}
public void TestEvaporation()
{
MockSoil soil = new MockSoil();
APSIM.Shared.Soils.Soil soilProperties = Setup();
APSIMReadySoil.Create(soilProperties);
MockClock clock = new MockClock();
clock.Today = new DateTime(2015, 6, 1);
MockWeather weather = new MockWeather();
weather.MaxT = 30;
weather.MinT = 10;
weather.Rain = 100;
weather.Radn = 25;
MockSurfaceOrganicMatter surfaceOrganicMatter = new MockSurfaceOrganicMatter();
surfaceOrganicMatter.Cover = 0.8;
List<ICanopy> canopies = new List<ICanopy>();
EvaporationModel evaporation = new EvaporationModel();
SetLink(soil, "properties", soilProperties);
SetLink(evaporation, "soil", soil);
SetLink(evaporation, "clock", clock);
SetLink(evaporation, "weather", weather);
SetLink(evaporation, "canopies", canopies);
SetLink(evaporation, "surfaceOrganicMatter", surfaceOrganicMatter);
// Empty profile.
soil.Water = MathUtilities.Multiply(soilProperties.Water.LL15, soilProperties.Water.Thickness);
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 3.00359));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 2.20072));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 1.57064));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.96006));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.75946));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.64851));
soil.Infiltration = 100;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 3.00359));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 2.20072));
}
public MockSoilSolute(MockSoil parent)
{
parentSoil = parent;
Name = "NO3";
}
public MockSoilSolute(MockSoil parent, string name)
{
parentSoil = parent;
Name = name;
}
public void TestEvaporation()
{
MockSoil soil = new MockSoil();
APSIM.Shared.Soils.Soil soilProperties = Setup();
APSIMReadySoil.Create(soilProperties);
MockClock clock = new MockClock();
clock.Today = new DateTime(2015, 6, 1);
MockWeather weather = new MockWeather();
weather.MaxT = 30;
weather.MinT = 10;
weather.Rain = 100;
weather.Radn = 25;
MockSurfaceOrganicMatter surfaceOrganicMatter = new MockSurfaceOrganicMatter();
surfaceOrganicMatter.Cover = 0.8;
List <ICanopy> canopies = new List <ICanopy>();
EvaporationModel evaporation = new EvaporationModel();
SetLink(soil, "properties", soilProperties);
SetLink(evaporation, "soil", soil);
SetLink(evaporation, "clock", clock);
SetLink(evaporation, "weather", weather);
SetLink(evaporation, "canopies", canopies);
SetLink(evaporation, "surfaceOrganicMatter", surfaceOrganicMatter);
// Empty profile.
soil.Water = MathUtilities.Multiply(soilProperties.Water.LL15, soilProperties.Water.Thickness);
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 3.00359));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 2.20072));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 1.57064));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.96006));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.75946));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 0.64851));
soil.Infiltration = 100;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 3.00359));
soil.Infiltration = 0;
evaporation.Calculate();
Assert.IsTrue(MathUtilities.FloatsAreEqual(evaporation.Es, 2.20072));
}
