Exemple #1
0
        private PipingSurfaceLine CreateSurfaceLine(Random random)
        {
            var surfaceLine = new PipingSurfaceLine(nameof(PipingSurfaceLine))
            {
                ReferenceLineIntersectionWorldPoint = new Point2D(random.NextDouble(), random.NextDouble())
            };

            var geometryPoints = new Point3D[10];

            for (var i = 0; i < 10; i++)
            {
                geometryPoints[i] = new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble());
            }

            surfaceLine.SetGeometry(geometryPoints);

            surfaceLine.SetBottomDitchDikeSideAt(geometryPoints[1]);
            surfaceLine.SetBottomDitchPolderSideAt(geometryPoints[2]);
            surfaceLine.SetDikeToeAtPolderAt(geometryPoints[3]);
            surfaceLine.SetDikeToeAtRiverAt(geometryPoints[4]);
            surfaceLine.SetDitchDikeSideAt(geometryPoints[5]);
            surfaceLine.SetDitchPolderSideAt(geometryPoints[7]);

            return(surfaceLine);
        }
Exemple #2
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        internal static PipingSurfaceLine GetSurfaceLine()
        {
            var surfaceLine = new PipingSurfaceLine(string.Empty);
            var firstCharacteristicPointLocation  = new Point3D(0.2, 0.0, bottom + 3 * top / 4);
            var secondCharacteristicPointLocation = new Point3D(0.3, 0.0, bottom + 2 * top / 4);
            var thirdCharacteristicPointLocation  = new Point3D(0.4, 0.0, bottom + top / 4);
            var fourthCharacteristicPointLocation = new Point3D(0.5, 0.0, bottom + 2 * top / 4);
            var fifthCharacteristicPointLocation  = new Point3D(0.6, 0.0, bottom + 3 * top / 4);

            surfaceLine.SetGeometry(new[]
            {
                new Point3D(0.0, 0.0, 0.0),
                firstCharacteristicPointLocation,
                secondCharacteristicPointLocation,
                thirdCharacteristicPointLocation,
                fourthCharacteristicPointLocation,
                fifthCharacteristicPointLocation,
                new Point3D(1.0, 0.0, top)
            });
            surfaceLine.SetDikeToeAtPolderAt(firstCharacteristicPointLocation);
            surfaceLine.SetDitchDikeSideAt(secondCharacteristicPointLocation);
            surfaceLine.SetBottomDitchDikeSideAt(thirdCharacteristicPointLocation);
            surfaceLine.SetBottomDitchPolderSideAt(fourthCharacteristicPointLocation);
            surfaceLine.SetDitchPolderSideAt(fifthCharacteristicPointLocation);
            surfaceLine.ReferenceLineIntersectionWorldPoint = new Point2D(0.0, 0.0);

            return(surfaceLine);
        }
Exemple #3
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        private static PipingSurfaceLine CreateSurfaceLineWithCharacteristicPoints(string name = "Name A")
        {
            var surfaceLine = new PipingSurfaceLine(name)
            {
                ReferenceLineIntersectionWorldPoint = new Point2D(0, 0)
            };
            var geometry = new[]
            {
                new Point3D(0, 0, 0),
                new Point3D(1, 0, 2),
                new Point3D(2, 0, 3),
                new Point3D(3, 0, 0),
                new Point3D(4, 0, 2),
                new Point3D(5, 0, 3)
            };

            surfaceLine.SetGeometry(geometry);
            surfaceLine.SetBottomDitchDikeSideAt(geometry[0]);
            surfaceLine.SetBottomDitchPolderSideAt(geometry[1]);
            surfaceLine.SetDikeToeAtPolderAt(geometry[2]);
            surfaceLine.SetDikeToeAtRiverAt(geometry[3]);
            surfaceLine.SetDitchDikeSideAt(geometry[4]);
            surfaceLine.SetDitchPolderSideAt(geometry[5]);

            return(surfaceLine);
        }
Exemple #4
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        public void Create_SurfaceLineWithCharacteristicPointsOnSameGeometryPoint_ReturnSurfaceLineEntityWithPointEntitiesAndCharactersisticPointReferences()
        {
            // Setup
            var random   = new Random(31);
            var registry = new PersistenceRegistry();
            var geometry = new[]
            {
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble())
            };
            var surfaceLine = new PipingSurfaceLine("Test")
            {
                ReferenceLineIntersectionWorldPoint = new Point2D(random.NextDouble(), random.NextDouble())
            };

            surfaceLine.SetGeometry(geometry);
            surfaceLine.SetBottomDitchDikeSideAt(geometry[0]);
            surfaceLine.SetBottomDitchPolderSideAt(geometry[0]);
            surfaceLine.SetDikeToeAtPolderAt(geometry[0]);
            surfaceLine.SetDikeToeAtRiverAt(geometry[0]);
            surfaceLine.SetDitchDikeSideAt(geometry[0]);
            surfaceLine.SetDitchPolderSideAt(geometry[0]);

            // Call
            SurfaceLineEntity entity = surfaceLine.Create(registry, 0);

            // Assert
            Assert.AreEqual(surfaceLine.Name, entity.Name);
            Assert.AreEqual(surfaceLine.ReferenceLineIntersectionWorldPoint.X, entity.ReferenceLineIntersectionX);
            Assert.AreEqual(surfaceLine.ReferenceLineIntersectionWorldPoint.Y, entity.ReferenceLineIntersectionY);

            string expectedXml = new Point3DCollectionXmlSerializer().ToXml(geometry);

            Assert.AreEqual(expectedXml, entity.PointsXml);

            Assert.AreEqual(6, entity.PipingCharacteristicPointEntities.Count);

            CollectionAssert.AreEquivalent(new[]
            {
                (byte)PipingCharacteristicPointType.DikeToeAtRiver,
                (byte)PipingCharacteristicPointType.DikeToeAtPolder,
                (byte)PipingCharacteristicPointType.DitchDikeSide,
                (byte)PipingCharacteristicPointType.BottomDitchDikeSide,
                (byte)PipingCharacteristicPointType.BottomDitchPolderSide,
                (byte)PipingCharacteristicPointType.DitchPolderSide
            }, entity.PipingCharacteristicPointEntities
                                           .Select(cpe => cpe.Type));

            foreach (PipingCharacteristicPointEntity characteristicPointEntity in entity.PipingCharacteristicPointEntities)
            {
                Assert.AreEqual(geometry[0].X, characteristicPointEntity.X);
                Assert.AreEqual(geometry[0].Y, characteristicPointEntity.Y);
                Assert.AreEqual(geometry[0].Z, characteristicPointEntity.Z);
            }
        }
 /// <summary>
 /// Tries to set the <see cref="PipingSurfaceLine.DitchPolderSide"/> at the location of
 /// <paramref name="point"/>.
 /// </summary>
 /// <param name="surfaceLine">The <see cref="PipingSurfaceLine"/> to set the
 /// <see cref="PipingSurfaceLine.DitchPolderSide"/> for.</param>
 /// <param name="point">The point at which to set the <see cref="PipingSurfaceLine.DitchPolderSide"/>.</param>
 private static void TrySetDitchPolderSide(this PipingSurfaceLine surfaceLine, Point3D point)
 {
     if (point != null)
     {
         try
         {
             surfaceLine.SetDitchPolderSideAt(point);
         }
         catch (ArgumentException e)
         {
             LogError(surfaceLine, e);
         }
     }
 }
        public static void CalculateEffectiveThicknessCoverageLayer_WithMultipleCharacteristicTypesOnSamePoint_ReturnsThickness()
        {
            // Setup
            var surfaceLine = new PipingSurfaceLine(string.Empty);

            surfaceLine.SetGeometry(new[]
            {
                new Point3D(0, 0, 10),
                new Point3D(20, 0, 10)
            });
            surfaceLine.SetDikeToeAtRiverAt(surfaceLine.Points.ElementAt(0));
            surfaceLine.SetDikeToeAtPolderAt(surfaceLine.Points.ElementAt(0));
            surfaceLine.SetDitchDikeSideAt(surfaceLine.Points.ElementAt(0));
            surfaceLine.SetBottomDitchPolderSideAt(surfaceLine.Points.ElementAt(1));
            surfaceLine.SetBottomDitchDikeSideAt(surfaceLine.Points.ElementAt(1));
            surfaceLine.SetDitchPolderSideAt(surfaceLine.Points.ElementAt(1));

            var stochasticSoilProfile = new PipingStochasticSoilProfile(
                0.0, new PipingSoilProfile(string.Empty, 0, new[]
            {
                new PipingSoilLayer(5)
                {
                    IsAquifer = true
                },
                new PipingSoilLayer(20)
                {
                    IsAquifer = false
                }
            }, SoilProfileType.SoilProfile1D));

            var input = new TestPipingInput
            {
                ExitPointL            = (RoundedDouble)10,
                SurfaceLine           = surfaceLine,
                StochasticSoilProfile = stochasticSoilProfile
            };

            var generalInput = new GeneralPipingInput();

            // Call
            double thickness = InputParameterCalculationService.CalculateEffectiveThicknessCoverageLayer(
                generalInput.WaterVolumetricWeight,
                PipingDesignVariableFactory.GetPhreaticLevelExit(input).GetDesignValue(),
                input.ExitPointL,
                input.SurfaceLine,
                input.StochasticSoilProfile.SoilProfile);

            // Assert
            Assert.AreEqual(5, thickness);
        }
        public void CreateDitchPolderSidePoint_GivenSurfaceLineWithDitchPolderSide_ReturnsDitchPolderSidePointsArray()
        {
            // Setup
            var ditchPolderSide           = new Point3D(1.2, 2.3, 4.0);
            PipingSurfaceLine surfaceLine = GetSurfaceLineWithGeometry();

            surfaceLine.SetDitchPolderSideAt(ditchPolderSide);

            // Call
            Point2D[] points = PipingChartDataPointsFactory.CreateDitchPolderSidePoint(surfaceLine);

            // Assert
            AssertEqualLocalPointCollection(ditchPolderSide, surfaceLine, points);
        }
Exemple #8
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        /// <summary>
        /// Sets the characteristic point and its coordinate to the <paramref name="surfaceLine"/>.
        /// </summary>
        /// <param name="surfaceLine">The surface line to set the characteristic point on.</param>
        /// <param name="type">The type of characteristic point.</param>
        /// <param name="geometryPoint">The point associated with the characteristic point.</param>
        /// <exception cref="InvalidEnumArgumentException">Thrown when <paramref name="type"/> is not
        /// a valid <see cref="PipingCharacteristicPointType"/>.</exception>
        /// <exception cref="NotSupportedException">Thrown when <paramref name="type"/> is not supported.</exception>
        private static void SetCharacteristicPoint(PipingSurfaceLine surfaceLine,
                                                   PipingCharacteristicPointType type,
                                                   Point3D geometryPoint)
        {
            if (!Enum.IsDefined(typeof(PipingCharacteristicPointType), type))
            {
                throw new InvalidEnumArgumentException(nameof(type),
                                                       (int)type,
                                                       typeof(PipingCharacteristicPointType));
            }

            switch (type)
            {
            case PipingCharacteristicPointType.DikeToeAtRiver:
                surfaceLine.SetDikeToeAtRiverAt(geometryPoint);
                break;

            case PipingCharacteristicPointType.DikeToeAtPolder:
                surfaceLine.SetDikeToeAtPolderAt(geometryPoint);
                break;

            case PipingCharacteristicPointType.DitchDikeSide:
                surfaceLine.SetDitchDikeSideAt(geometryPoint);
                break;

            case PipingCharacteristicPointType.BottomDitchDikeSide:
                surfaceLine.SetBottomDitchDikeSideAt(geometryPoint);
                break;

            case PipingCharacteristicPointType.BottomDitchPolderSide:
                surfaceLine.SetBottomDitchPolderSideAt(geometryPoint);
                break;

            case PipingCharacteristicPointType.DitchPolderSide:
                surfaceLine.SetDitchPolderSideAt(geometryPoint);
                break;

            default:
                throw new NotSupportedException();
            }
        }
        public void Data_WithSurfaceLineAndSoilProfile_DataUpdatedToCollectionOfFilledChartData()
        {
            // Setup
            using (var view = new PipingInputView())
            {
                PipingSurfaceLine surfaceLine = GetSurfaceLineWithGeometry();
                surfaceLine.SetDitchDikeSideAt(new Point3D(1.2, 2.3, 4.0));
                surfaceLine.SetBottomDitchDikeSideAt(new Point3D(1.2, 2.3, 4.0));
                surfaceLine.SetDitchPolderSideAt(new Point3D(1.2, 2.3, 4.0));
                surfaceLine.SetBottomDitchPolderSideAt(new Point3D(1.2, 2.3, 4.0));
                surfaceLine.SetDikeToeAtPolderAt(new Point3D(1.2, 2.3, 4.0));
                surfaceLine.SetDikeToeAtRiverAt(new Point3D(1.2, 2.3, 4.0));

                PipingStochasticSoilProfile stochasticSoilProfile = GetStochasticSoilProfile();
                var calculation = new TestPipingCalculationScenario(new TestPipingInput())
                {
                    InputParameters =
                    {
                        SurfaceLine           = surfaceLine,
                        StochasticSoilProfile = stochasticSoilProfile
                    }
                };

                // Call
                view.Data = calculation;

                // Assert
                Assert.AreSame(calculation, view.Data);
                ChartDataCollection chartData = view.Chart.Data;
                Assert.IsInstanceOf <ChartDataCollection>(chartData);
                Assert.AreEqual(10, chartData.Collection.Count());
                AssertSoilProfileChartData(stochasticSoilProfile, chartData.Collection.ElementAt(soilProfileIndex), true);
                AssertSurfaceLineChartData(surfaceLine, chartData.Collection.ElementAt(surfaceLineIndex));
                AssertEntryPointLPointchartData(calculation.InputParameters, surfaceLine, chartData.Collection.ElementAt(entryPointIndex));
                AssertExitPointLPointchartData(calculation.InputParameters, surfaceLine, chartData.Collection.ElementAt(exitPointIndex));
                AssertCharacteristicPoints(surfaceLine, chartData.Collection.ToList());
            }
        }
Exemple #10
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        public void GetProperties_WithData_ReturnExpectedValues()
        {
            // Setup
            const string expectedName = "<some nice name>";
            var          point1       = new Point3D(1.1, 2.2, 3.3);
            var          point2       = new Point3D(2.1, 2.2, 3.3);

            var surfaceLine = new PipingSurfaceLine(expectedName);

            surfaceLine.SetGeometry(new[]
            {
                point1,
                point2
            });
            surfaceLine.SetDikeToeAtRiverAt(point1);
            surfaceLine.SetDikeToeAtPolderAt(point2);
            surfaceLine.SetDitchDikeSideAt(point1);
            surfaceLine.SetBottomDitchDikeSideAt(point1);
            surfaceLine.SetBottomDitchPolderSideAt(point2);
            surfaceLine.SetDitchPolderSideAt(point2);

            var properties = new PipingSurfaceLineProperties
            {
                Data = surfaceLine
            };

            // Call & Assert
            Assert.AreEqual(expectedName, properties.Name);
            CollectionAssert.AreEqual(surfaceLine.Points, properties.Points);
            Assert.AreEqual(point1, properties.DikeToeAtRiver);
            Assert.AreEqual(point2, properties.DikeToeAtPolder);
            Assert.AreEqual(point1, properties.DitchDikeSide);
            Assert.AreEqual(point1, properties.BottomDitchDikeSide);
            Assert.AreEqual(point2, properties.BottomDitchPolderSide);
            Assert.AreEqual(point2, properties.DitchPolderSide);
        }
        public void UpdateObserver_CalculationSurfaceLineUpdated_ChartDataUpdated()
        {
            // Setup
            var mocks    = new MockRepository();
            var observer = mocks.StrictMock <IObserver>();

            observer.Expect(o => o.UpdateObserver()).Repeat.Times(9);
            mocks.ReplayAll();

            using (var view = new PipingInputView())
            {
                var characteristicPoint       = new Point3D(1.2, 2.3, 4.0);
                PipingSurfaceLine surfaceLine = GetSurfaceLineWithGeometry();

                surfaceLine.SetDitchDikeSideAt(characteristicPoint);
                surfaceLine.SetBottomDitchDikeSideAt(characteristicPoint);
                surfaceLine.SetDitchPolderSideAt(characteristicPoint);
                surfaceLine.SetBottomDitchPolderSideAt(characteristicPoint);
                surfaceLine.SetDikeToeAtPolderAt(characteristicPoint);
                surfaceLine.SetDikeToeAtRiverAt(characteristicPoint);

                var calculation = new TestPipingCalculationScenario(new TestPipingInput())
                {
                    InputParameters =
                    {
                        SurfaceLine = surfaceLine
                    }
                };

                view.Data = calculation;

                List <ChartData> chartDataList = view.Chart.Data.Collection.ToList();
                var surfaceLineChartData       = (ChartLineData)chartDataList[surfaceLineIndex];
                var entryPointChartData        = (ChartPointData)chartDataList[entryPointIndex];
                var exitPointChartData         = (ChartPointData)chartDataList[exitPointIndex];
                var ditchDikeSideData          = (ChartPointData)chartDataList[ditchDikeSideIndex];
                var bottomDitchDikeSideData    = (ChartPointData)chartDataList[bottomDitchDikeSideIndex];
                var ditchPolderSideData        = (ChartPointData)chartDataList[ditchPolderSideIndex];
                var bottomDitchPolderSideData  = (ChartPointData)chartDataList[bottomDitchPolderSideIndex];
                var dikeToeAtPolderData        = (ChartPointData)chartDataList[dikeToeAtPolderIndex];
                var dikeToeAtRiverData         = (ChartPointData)chartDataList[dikeToeAtRiverIndex];

                surfaceLineChartData.Attach(observer);
                entryPointChartData.Attach(observer);
                exitPointChartData.Attach(observer);
                ditchDikeSideData.Attach(observer);
                bottomDitchDikeSideData.Attach(observer);
                ditchPolderSideData.Attach(observer);
                bottomDitchPolderSideData.Attach(observer);
                dikeToeAtPolderData.Attach(observer);
                dikeToeAtRiverData.Attach(observer);

                var characteristicPoint2       = new Point3D(3.5, 2.3, 8.0);
                PipingSurfaceLine surfaceLine2 = GetSecondSurfaceLineWithGeometry();

                surfaceLine2.SetDitchDikeSideAt(characteristicPoint2);
                surfaceLine2.SetBottomDitchDikeSideAt(characteristicPoint2);
                surfaceLine2.SetDitchPolderSideAt(characteristicPoint2);
                surfaceLine2.SetBottomDitchPolderSideAt(characteristicPoint2);
                surfaceLine2.SetDikeToeAtPolderAt(characteristicPoint2);
                surfaceLine2.SetDikeToeAtRiverAt(characteristicPoint2);

                calculation.InputParameters.SurfaceLine = surfaceLine2;

                // Call
                calculation.InputParameters.NotifyObservers();

                // Assert
                chartDataList = view.Chart.Data.Collection.ToList();

                Assert.AreSame(surfaceLineChartData, (ChartLineData)chartDataList[surfaceLineIndex]);
                Assert.AreSame(entryPointChartData, (ChartPointData)chartDataList[entryPointIndex]);
                Assert.AreSame(exitPointChartData, (ChartPointData)chartDataList[exitPointIndex]);
                Assert.AreSame(ditchDikeSideData, (ChartPointData)chartDataList[ditchDikeSideIndex]);
                Assert.AreSame(bottomDitchDikeSideData, (ChartPointData)chartDataList[bottomDitchDikeSideIndex]);
                Assert.AreSame(ditchPolderSideData, (ChartPointData)chartDataList[ditchPolderSideIndex]);
                Assert.AreSame(bottomDitchPolderSideData, (ChartPointData)chartDataList[bottomDitchPolderSideIndex]);
                Assert.AreSame(dikeToeAtPolderData, (ChartPointData)chartDataList[dikeToeAtPolderIndex]);
                Assert.AreSame(dikeToeAtRiverData, (ChartPointData)chartDataList[dikeToeAtRiverIndex]);

                AssertSurfaceLineChartData(surfaceLine2, surfaceLineChartData);
                AssertEntryPointLPointchartData(calculation.InputParameters, surfaceLine2, entryPointChartData);
                AssertExitPointLPointchartData(calculation.InputParameters, surfaceLine2, exitPointChartData);
                AssertCharacteristicPoints(surfaceLine2, chartDataList);
                mocks.VerifyAll();
            }
        }
Exemple #12
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 protected override void SetCharacteristicPoint(PipingSurfaceLine surfaceLine, Point3D point)
 {
     surfaceLine.SetDitchPolderSideAt(point);
 }
Exemple #13
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        public void Create_SurfaceLineWithGeometryAndCharacteristicPoints_ReturnSurfaceLineEntityWithPointEntitiesAndCharactersisticPointReferences()
        {
            // Setup
            var registry = new PersistenceRegistry();
            var random   = new Random(31);
            var geometry = new[]
            {
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble()),
                new Point3D(random.NextDouble(), random.NextDouble(), random.NextDouble())
            };
            var surfaceLine = new PipingSurfaceLine("Test")
            {
                ReferenceLineIntersectionWorldPoint = new Point2D(random.NextDouble(), random.NextDouble())
            };

            surfaceLine.SetGeometry(geometry);
            const int bottomDitchDikeIndex = 1;

            surfaceLine.SetBottomDitchDikeSideAt(geometry[bottomDitchDikeIndex]);
            const int bottomDitchPolderIndex = 2;

            surfaceLine.SetBottomDitchPolderSideAt(geometry[bottomDitchPolderIndex]);
            const int toePolderIndex = 3;

            surfaceLine.SetDikeToeAtPolderAt(geometry[toePolderIndex]);
            const int toeDikeIndex = 4;

            surfaceLine.SetDikeToeAtRiverAt(geometry[toeDikeIndex]);
            const int ditchDikeIndex = 5;

            surfaceLine.SetDitchDikeSideAt(geometry[ditchDikeIndex]);
            const int ditchPolderIndex = 6;

            surfaceLine.SetDitchPolderSideAt(geometry[ditchPolderIndex]);

            // Call
            SurfaceLineEntity entity = surfaceLine.Create(registry, 0);

            // Assert
            Assert.AreEqual(surfaceLine.Name, entity.Name);
            Assert.AreEqual(surfaceLine.ReferenceLineIntersectionWorldPoint.X, entity.ReferenceLineIntersectionX);
            Assert.AreEqual(surfaceLine.ReferenceLineIntersectionWorldPoint.Y, entity.ReferenceLineIntersectionY);

            string expectedXml = new Point3DCollectionXmlSerializer().ToXml(geometry);

            Assert.AreEqual(expectedXml, entity.PointsXml);

            Assert.AreEqual(6, entity.PipingCharacteristicPointEntities.Count);
            foreach (PipingCharacteristicPointEntity characteristicPointEntity in entity.PipingCharacteristicPointEntities)
            {
                switch (characteristicPointEntity.Type)
                {
                case (byte)PipingCharacteristicPointType.BottomDitchDikeSide:
                    Assert.AreEqual(geometry[bottomDitchDikeIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[bottomDitchDikeIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[bottomDitchDikeIndex].Z, characteristicPointEntity.Z);
                    break;

                case (byte)PipingCharacteristicPointType.BottomDitchPolderSide:
                    Assert.AreEqual(geometry[bottomDitchPolderIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[bottomDitchPolderIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[bottomDitchPolderIndex].Z, characteristicPointEntity.Z);
                    break;

                case (byte)PipingCharacteristicPointType.DikeToeAtPolder:
                    Assert.AreEqual(geometry[toePolderIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[toePolderIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[toePolderIndex].Z, characteristicPointEntity.Z);
                    break;

                case (byte)PipingCharacteristicPointType.DikeToeAtRiver:
                    Assert.AreEqual(geometry[toeDikeIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[toeDikeIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[toeDikeIndex].Z, characteristicPointEntity.Z);
                    break;

                case (byte)PipingCharacteristicPointType.DitchDikeSide:
                    Assert.AreEqual(geometry[ditchDikeIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[ditchDikeIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[ditchDikeIndex].Z, characteristicPointEntity.Z);
                    break;

                case (byte)PipingCharacteristicPointType.DitchPolderSide:
                    Assert.AreEqual(geometry[ditchPolderIndex].X, characteristicPointEntity.X);
                    Assert.AreEqual(geometry[ditchPolderIndex].Y, characteristicPointEntity.Y);
                    Assert.AreEqual(geometry[ditchPolderIndex].Z, characteristicPointEntity.Z);
                    break;

                default:
                    Assert.Fail("Invalid characteristic point type found: {0}", characteristicPointEntity.Type);
                    break;
                }
            }
        }