public void IsEnabled_FailureMechanismSectionsSourcePathSet_ReturnTrue()
{
// Setup
var mocks = new MockRepository();
var assessmentSection = mocks.Stub <IAssessmentSection>();
mocks.ReplayAll();
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
string sourcePath = TestHelper.GetScratchPadPath();
failureMechanism.SetSections(Enumerable.Empty <FailureMechanismSection>(), sourcePath);
var context = new MacroStabilityInwardsFailureMechanismSectionsContext(failureMechanism, assessmentSection);
using (var plugin = new MacroStabilityInwardsPlugin())
{
UpdateInfo importInfo = GetUpdateInfo(plugin);
// Call
bool isEnabled = importInfo.IsEnabled(context);
// Assert
Assert.IsTrue(isEnabled);
}
mocks.VerifyAll();
}
public void AssembleFailureMechanism_WithInput_SetsInputOnCalculator()
{
// Setup
var failureMechanism = new MacroStabilityInwardsFailureMechanism
{
AssemblyResult =
{
ProbabilityResultType = FailureMechanismAssemblyProbabilityResultType.Automatic
}
};
failureMechanism.SetSections(new[]
{
FailureMechanismSectionTestFactory.CreateFailureMechanismSection()
}, "APath");
var assessmentSection = new AssessmentSectionStub();
using (new AssemblyToolCalculatorFactoryConfig())
{
var calculatorFactory = (TestAssemblyToolCalculatorFactory)AssemblyToolCalculatorFactory.Instance;
FailureMechanismSectionAssemblyCalculatorStub calculator = calculatorFactory.LastCreatedFailureMechanismSectionAssemblyCalculator;
FailureMechanismAssemblyCalculatorStub failureMechanismAssemblyCalculator = calculatorFactory.LastCreatedFailureMechanismAssemblyCalculator;
// Call
MacroStabilityInwardsFailureMechanismAssemblyFactory.AssembleFailureMechanism(failureMechanism, assessmentSection);
// Assert
double expectedN = failureMechanism.MacroStabilityInwardsProbabilityAssessmentInput.GetN(assessmentSection.ReferenceLine.Length);
Assert.AreEqual(expectedN, failureMechanismAssemblyCalculator.FailureMechanismN);
Assert.AreSame(calculator.FailureMechanismSectionAssemblyResultOutput.AssemblyResult, failureMechanismAssemblyCalculator.SectionAssemblyResultsInput.Single());
Assert.AreEqual(failureMechanism.GeneralInput.ApplyLengthEffectInSection, failureMechanismAssemblyCalculator.ApplyLengthEffect);
}
}
public void CurrentPath_FailureMechanismSectionsSourcePathSet_ReturnsExpectedPath()
{
// Setup
var mocks = new MockRepository();
var assessmentSection = mocks.Stub <IAssessmentSection>();
mocks.ReplayAll();
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
string sourcePath = TestHelper.GetScratchPadPath();
failureMechanism.SetSections(Enumerable.Empty <FailureMechanismSection>(), sourcePath);
var context = new MacroStabilityInwardsFailureMechanismSectionsContext(failureMechanism, assessmentSection);
using (var plugin = new MacroStabilityInwardsPlugin())
{
UpdateInfo updateInfo = GetUpdateInfo(plugin);
// Call
string currentFilePath = updateInfo.CurrentPath(context);
// Assert
Assert.AreEqual(sourcePath, currentFilePath);
mocks.VerifyAll();
}
}
public void Create_WithSections_FailureMechanismSectionEntitiesCreated()
{
// Setup
const string filePath = "failureMechanismSections/file/path";
var failureMechanism = new MacroStabilityInwardsFailureMechanism();
FailureMechanismSection testFailureMechanismSection = FailureMechanismSectionTestFactory.CreateFailureMechanismSection();
failureMechanism.SetSections(new[]
{
testFailureMechanismSection
}, filePath);
// Call
FailureMechanismEntity entity = failureMechanism.Create(new PersistenceRegistry());
// Assert
Assert.IsNotNull(entity);
Assert.AreEqual(1, entity.FailureMechanismSectionEntities.Count);
Assert.AreEqual(1, entity.FailureMechanismSectionEntities
.SelectMany(fms => fms.AdoptableWithProfileProbabilityFailureMechanismSectionResultEntities)
.Count());
TestHelper.AssertAreEqualButNotSame(filePath, entity.FailureMechanismSectionCollectionSourcePath);
}
/// <summary>
/// Configures a <see cref="MacroStabilityInwardsFailureMechanism"/> to a fully configured failure
/// mechanism with all possible parent and nested calculation configurations.
/// </summary>
/// <param name="failureMechanism">The failure mechanism to be updated.</param>
/// <param name="hydraulicBoundaryLocation">The hydraulic boundary location used
/// by calculations.</param>
/// <remarks>This method assumes <paramref name="failureMechanism"/> is a newly
/// created instance.</remarks>
public static void ConfigureFailureMechanismWithAllCalculationConfigurations(MacroStabilityInwardsFailureMechanism failureMechanism,
HydraulicBoundaryLocation hydraulicBoundaryLocation)
{
var surfaceLine1 = new MacroStabilityInwardsSurfaceLine("Line A")
{
ReferenceLineIntersectionWorldPoint = new Point2D(0, 5)
};
surfaceLine1.SetGeometry(new[]
{
new Point3D(0, 0, 0),
new Point3D(0, 10, 0)
});
var surfaceLine2 = new MacroStabilityInwardsSurfaceLine("Line B")
{
ReferenceLineIntersectionWorldPoint = new Point2D(10, 5)
};
surfaceLine2.SetGeometry(new[]
{
new Point3D(10, 0, 0),
new Point3D(10, 10, 0)
});
failureMechanism.SurfaceLines.AddRange(new[]
{
surfaceLine1,
surfaceLine2
}, "some/path/to/surfacelines");
var stochasticSoilModel1 = new MacroStabilityInwardsStochasticSoilModel("A", new[]
{
new Point2D(-5, 5),
new Point2D(5, 5)
}, new[]
{
new MacroStabilityInwardsStochasticSoilProfile(1.0, new MacroStabilityInwardsSoilProfile1D("test", 3, new[]
{
new MacroStabilityInwardsSoilLayer1D(4)
}))
});
var stochasticSoilModel2 = new MacroStabilityInwardsStochasticSoilModel("C", new[]
{
new Point2D(5, 5),
new Point2D(15, 5)
}, new[]
{
new MacroStabilityInwardsStochasticSoilProfile(1.0, new MacroStabilityInwardsSoilProfile2D("test", new[]
{
new MacroStabilityInwardsSoilLayer2D(new Ring(new[]
{
new Point2D(0, 0),
new Point2D(1, 0),
new Point2D(0, 0)
}))
}, Enumerable.Empty <MacroStabilityInwardsPreconsolidationStress>()))
});
failureMechanism.StochasticSoilModels.AddRange(new[]
{
stochasticSoilModel1,
stochasticSoilModel2
}, "some/path/to/stochasticsoilmodels");
var calculation = new MacroStabilityInwardsCalculationScenario();
var calculationWithOutput = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
SurfaceLine = surfaceLine1,
StochasticSoilModel = stochasticSoilModel1
},
Output = MacroStabilityInwardsOutputTestFactory.CreateOutput()
};
var calculationWithSurfaceLineAndSoilModel = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
SurfaceLine = surfaceLine1,
StochasticSoilModel = stochasticSoilModel1,
StochasticSoilProfile = stochasticSoilModel1.StochasticSoilProfiles.ElementAt(0)
}
};
var calculationWithOutputAndHydraulicBoundaryLocation = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
SurfaceLine = surfaceLine2,
StochasticSoilModel = stochasticSoilModel2
},
Output = MacroStabilityInwardsOutputTestFactory.CreateOutput()
};
var calculationWithHydraulicBoundaryLocation = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation
}
};
var calculationWithSurfaceLineAndStochasticSoilModel = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
SurfaceLine = surfaceLine1,
StochasticSoilModel = stochasticSoilModel2,
StochasticSoilProfile = stochasticSoilModel2.StochasticSoilProfiles.ElementAt(0)
}
};
var subCalculation = new MacroStabilityInwardsCalculationScenario();
var subCalculationWithOutput = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
SurfaceLine = surfaceLine2,
StochasticSoilModel = stochasticSoilModel2,
StochasticSoilProfile = stochasticSoilModel2.StochasticSoilProfiles.ElementAt(0)
},
Output = MacroStabilityInwardsOutputTestFactory.CreateOutput()
};
var subCalculationWithOutputAndHydraulicBoundaryLocation = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation,
SurfaceLine = surfaceLine1,
StochasticSoilModel = stochasticSoilModel1,
StochasticSoilProfile = stochasticSoilModel1.StochasticSoilProfiles.ElementAt(0)
},
Output = MacroStabilityInwardsOutputTestFactory.CreateOutput()
};
var subCalculationWithHydraulicBoundaryLocation = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
HydraulicBoundaryLocation = hydraulicBoundaryLocation
}
};
var subCalculationWithSurfaceLineAndStochasticSoilModel = new MacroStabilityInwardsCalculationScenario
{
InputParameters =
{
SurfaceLine = surfaceLine1,
StochasticSoilModel = stochasticSoilModel2,
StochasticSoilProfile = stochasticSoilModel2.StochasticSoilProfiles.ElementAt(0)
}
};
failureMechanism.CalculationsGroup.Children.Add(calculation);
failureMechanism.CalculationsGroup.Children.Add(calculationWithOutput);
failureMechanism.CalculationsGroup.Children.Add(calculationWithSurfaceLineAndSoilModel);
failureMechanism.CalculationsGroup.Children.Add(calculationWithOutputAndHydraulicBoundaryLocation);
failureMechanism.CalculationsGroup.Children.Add(calculationWithSurfaceLineAndStochasticSoilModel);
failureMechanism.CalculationsGroup.Children.Add(calculationWithHydraulicBoundaryLocation);
failureMechanism.CalculationsGroup.Children.Add(new CalculationGroup
{
Children =
{
subCalculation,
subCalculationWithOutput,
subCalculationWithOutputAndHydraulicBoundaryLocation,
subCalculationWithHydraulicBoundaryLocation,
subCalculationWithSurfaceLineAndStochasticSoilModel
}
});
var section1 = new FailureMechanismSection("1",
new[]
{
new Point2D(-1, -1),
new Point2D(5, 5)
});
var section2 = new FailureMechanismSection("2",
new[]
{
new Point2D(5, 5),
new Point2D(15, 15)
});
failureMechanism.SetSections(new[]
{
section1,
section2
}, "path/to/sections");
}
