Esempio n. 1
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        public void CanGetAreaBoundaries()
        {
            // Arrange
            var area = ElementSelector.ByElementId(316208, true) as Area;

            var expectedCurves = new List <List <Curve> >()
            {
                new List <Curve>()
                {
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(6223.036, 3184.616, 0.000),
                        Point.ByCoordinates(-8076.964, 3184.616, 0.000)),
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8221.964, 3039.616, 0.000),
                        Point.ByCoordinates(-8221.964, -2660.384, 0.000)),
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8076.964, -2805.384, 0.000),
                        Point.ByCoordinates(6223.036, -2805.384, 0.000)),
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(6368.036, -2660.384, 0.000),
                        Point.ByCoordinates(6368.036, 3039.616, 0.000)),
                }
            };

            // Act
            var areaCurves = area.Boundaries;

            // Assert
            AssertListOfCurves(expectedCurves, areaCurves);
        }
Esempio n. 2
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        public void CanUnjoinTwoElements()
        {
            var    wall1 = ElementSelector.ByElementId(184176, true);
            var    wall2 = ElementSelector.ByElementId(207960, true);
            var    floor = ElementSelector.ByElementId(208259, true);
            var    doc   = DocumentManager.Instance.CurrentDBDocument;
            string expectedNotJoinedExceptionMessages = Revit.Properties.Resources.NotJoinedElements;

            // Are joined
            bool originalWall1AndWall2JoinedValue = JoinGeometryUtils.AreElementsJoined(doc,
                                                                                        wall1.InternalElement,
                                                                                        wall2.InternalElement);

            Assert.AreEqual(true, originalWall1AndWall2JoinedValue);

            // Are not joined
            bool originalWall2AndFloorJoinedValue = JoinGeometryUtils.AreElementsJoined(doc,
                                                                                        wall2.InternalElement,
                                                                                        floor.InternalElement);

            Assert.AreEqual(false, originalWall2AndFloorJoinedValue);

            wall1.UnjoinGeometry(wall2);
            bool newWall1AndWall2JoinedValue = wall1.AreJoined(wall2);

            // Are joined should have changed
            Assert.AreNotEqual(newWall1AndWall2JoinedValue, originalWall1AndWall2JoinedValue);
            // Should throw InvalidOperationException
            var ex = Assert.Throws <InvalidOperationException>(() => wall2.UnjoinGeometry(floor));

            Assert.AreEqual(ex.Message, expectedNotJoinedExceptionMessages);
        }
Esempio n. 3
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        public void CanGetWallTypeThermalProperties()
        {
            // Arrange
            var    wall = ElementSelector.ByElementId(184176, true);
            double expectedWallTypeAbsorptance             = 0.7;
            double expectedWallTypeHeatTransferCoefficient = 1E+30;
            int    expectedWallTypeRoughness         = 3;
            double expectedWallTypeThermalMass       = 0;
            double expectedWallTypeThermalResistance = 0;

            // Act
            var    wallType                              = wall.ElementType as WallType;
            var    thermalProperties                     = wallType.GetThermalProperties();
            double resultWallTypeAbsorptance             = (double)thermalProperties["Absorptance"];
            double resultWallTypeHeatTransferCoefficient = (double)thermalProperties["HeatTransferCoefficient"];
            int    resultWallTypeRoughness               = (int)thermalProperties["Roughness"];
            double resultWallTypeThermalMass             = (double)thermalProperties["ThermalMass"];
            double resultWallTypeThermalResistance       = (double)thermalProperties["ThermalResistance"];

            // Assert
            Assert.AreEqual(expectedWallTypeAbsorptance, resultWallTypeAbsorptance, Tolerance);
            Assert.AreEqual(expectedWallTypeHeatTransferCoefficient, resultWallTypeHeatTransferCoefficient, Tolerance);
            Assert.AreEqual(expectedWallTypeRoughness, resultWallTypeRoughness);
            Assert.AreEqual(expectedWallTypeThermalMass, resultWallTypeThermalMass, Tolerance);
            Assert.AreEqual(expectedWallTypeThermalResistance, resultWallTypeThermalResistance, Tolerance);
        }
Esempio n. 4
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        public void CanSuccessfullyJoinTwoIntersectingElements()
        {
            // Arrange
            Document doc                 = DocumentManager.Instance.CurrentDBDocument;
            var      primaryBeam         = ElementSelector.ByElementId(208422, true);
            var      nonIntersectingBeam = ElementSelector.ByElementId(209681, true);
            var      joinedBeam          = ElementSelector.ByElementId(208572, true);
            var      notJoinedWall       = ElementSelector.ByElementId(207960, true);
            var      notJoinedFloor      = ElementSelector.ByElementId(208259, true);

            var    nonIntersectingTestExpectedExceptionType   = typeof(System.NullReferenceException);
            string nonIntersectingTestExpectedExceptionString = "Elements are not intersecting";

            // Act
            List <int> joinedTestExpectedOutcome = new List <int> {
                208422, 208572
            };
            List <int> notJoinedTestExpectedOutcome = new List <int> {
                207960, 208259
            };

            var alreadyJoinedOutcome         = primaryBeam.JoinGeometry(joinedBeam).Select(elem => elem.Id).ToList();
            var notJoinedIntersectingOutcome = notJoinedWall.JoinGeometry(notJoinedFloor).Select(elem => elem.Id).ToList();

            // Assert
            Assert.AreEqual(joinedTestExpectedOutcome, alreadyJoinedOutcome);
            Assert.AreEqual(notJoinedTestExpectedOutcome, notJoinedIntersectingOutcome);

            // Non intersecting elements should throw a NullReferenceException
            // with the messages Elements are not intersecting
            var ex = Assert.Throws <InvalidOperationException>(() => primaryBeam.JoinGeometry(nonIntersectingBeam));

            Assert.AreEqual(ex.Message, nonIntersectingTestExpectedExceptionString);
        }
Esempio n. 5
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        public void CanGetRoofTypeThermalProperties()
        {
            // Arrange
            var    roof = ElementSelector.ByElementId(316136, true);
            double expectedRoofTypeAbsorptance             = 0.7;
            double expectedRoofTypeHeatTransferCoefficient = 0.15892777;
            int    expectedRoofTypeRoughness         = 3;
            double expectedRoofTypeThermalMass       = 1056333.2;
            double expectedRoofTypeThermalResistance = 6.29216624;

            // Act
            var    roofType                              = roof.ElementType as RoofType;
            var    thermalProperties                     = roofType.GetThermalProperties();
            double resultRoofTypeAbsorptance             = (double)thermalProperties["Absorptance"];
            double resultRoofTypeHeatTransferCoefficient = (double)thermalProperties["HeatTransferCoefficient"];
            int    resultRoofTypeRoughness               = (int)thermalProperties["Roughness"];
            double resultRoofTypeThermalMass             = (double)thermalProperties["ThermalMass"];
            double resultRoofTypeThermalResistance       = (double)thermalProperties["ThermalResistance"];

            // Assert
            Assert.AreEqual(expectedRoofTypeAbsorptance, resultRoofTypeAbsorptance, Tolerance);
            Assert.AreEqual(expectedRoofTypeHeatTransferCoefficient, resultRoofTypeHeatTransferCoefficient, Tolerance);
            Assert.AreEqual(expectedRoofTypeRoughness, resultRoofTypeRoughness);
            Assert.AreEqual(expectedRoofTypeThermalMass, resultRoofTypeThermalMass, Tolerance);
            Assert.AreEqual(expectedRoofTypeThermalResistance, resultRoofTypeThermalResistance, Tolerance);
        }
Esempio n. 6
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        public void CanGetFloorTypeThermalProperties()
        {
            // Arrange
            var    floor = ElementSelector.ByElementId(316138, true);
            double expectedFloorTypeAbsorptance             = 0.7;
            double expectedFloorTypeHeatTransferCoefficient = 0.117437;
            int    expectedFloorTypeRoughness         = 3;
            double expectedFloorTypeThermalMass       = 365549.43;
            double expectedFloorTypeThermalResistance = 8.515159;

            // Act
            var    floorType                              = floor.ElementType as FloorType;
            var    thermalProperties                      = floorType.GetThermalProperties();
            double resultFloorTypeAbsorptance             = (double)thermalProperties["Absorptance"];
            double resultFloorTypeHeatTransferCoefficient = (double)thermalProperties["HeatTransferCoefficient"];
            int    resultFloorTypeRoughness               = (int)thermalProperties["Roughness"];
            double resultFloorTypeThermalMass             = (double)thermalProperties["ThermalMass"];
            double resultFloorTypeThermalResistance       = (double)thermalProperties["ThermalResistance"];

            // Assert
            Assert.AreEqual(expectedFloorTypeAbsorptance, resultFloorTypeAbsorptance, Tolerance);
            Assert.AreEqual(expectedFloorTypeHeatTransferCoefficient, resultFloorTypeHeatTransferCoefficient, Tolerance);
            Assert.AreEqual(expectedFloorTypeRoughness, resultFloorTypeRoughness);
            Assert.AreEqual(expectedFloorTypeThermalMass, resultFloorTypeThermalMass, Tolerance);
            Assert.AreEqual(expectedFloorTypeThermalResistance, resultFloorTypeThermalResistance, Tolerance);
        }
Esempio n. 7
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        public void CanSetPinnedStatus()
        {
            string samplePath = Path.Combine(workingDirectory, @".\Element\setElementsPinStatus.dyn");
            string testPath   = Path.GetFullPath(samplePath);

            //check Select Model Element
            var elem = ElementSelector.ByElementId(184176, true);

            Assert.IsNotNull(elem);

            bool originalPinnedStatus = elem.InternalElement.Pinned;

            Assert.AreEqual(false, originalPinnedStatus);

            ViewModel.OpenCommand.Execute(testPath);
            RunCurrentModel();

            //now flip the switch for setting the pinned status to true
            var  boolNode      = ViewModel.Model.CurrentWorkspace.Nodes.Where(x => x is CoreNodeModels.Input.BoolSelector).First();
            bool boolNodeValue = true;

            ((CoreNodeModels.Input.BasicInteractive <bool>)boolNode).Value = boolNodeValue;

            RunCurrentModel();
            bool newPinnedStatus = elem.InternalElement.Pinned;

            Assert.AreNotEqual(originalPinnedStatus, newPinnedStatus);
            Assert.AreEqual(boolNodeValue, newPinnedStatus);
        }
Esempio n. 8
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        /// <summary>
        /// Gets the value of a family parameter of the current family type, this applies to all family parameters (instance and type).
        /// </summary>
        /// <param name="parameterName">A family parameter of the current type.</param>
        /// <param name="familyTypeName">The name of the family type.</param>
        /// <returns>The parameter value.</returns>
        public object GetParameterValueByName(string familyTypeName, string parameterName)
        {
            Autodesk.Revit.DB.FamilyParameter familyParameter = FamilyManager.get_Parameter(parameterName);
            if (familyParameter == null)
            {
                throw new InvalidOperationException(Properties.Resources.ParameterNotFound);
            }

            TransactionManager.Instance.EnsureInTransaction(this.InternalFamilyDocument);
            SetFamilyDocumentCurrentType(familyTypeName);
            TransactionManager.Instance.TransactionTaskDone();

            switch (familyParameter.StorageType)
            {
            case Autodesk.Revit.DB.StorageType.Integer:
                return(FamilyManager.CurrentType.AsInteger(familyParameter) * UnitConverter.HostToDynamoFactor(familyParameter.Definition.GetSpecTypeId()));

            case Autodesk.Revit.DB.StorageType.Double:
                return(FamilyManager.CurrentType.AsDouble(familyParameter) * UnitConverter.HostToDynamoFactor(familyParameter.Definition.GetSpecTypeId()));

            case Autodesk.Revit.DB.StorageType.String:
                return(FamilyManager.CurrentType.AsString(familyParameter));

            case Autodesk.Revit.DB.StorageType.ElementId:
                Elements.Element element = ElementSelector.ByElementId(FamilyManager.CurrentType.AsElementId(familyParameter).IntegerValue);
                return(element);

            default:
                return(null);
            }
        }
Esempio n. 9
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        public void CanSetAndGetAboveValue()
        {
            // Arrange
            var dimension             = ElementSelector.ByElementId(316269, true) as Dimension;
            var dimensionWithSegments = ElementSelector.ByElementId(316257, true) as Dimension;

            var expectedDimensionWithSegmentsValue = new List <string>()
            {
                "Above",
                "Above",
            };

            var expectedDimensionValue = new List <string>()
            {
                "Above",
            };


            // Act
            var oldDimensionAboveValue             = dimension.AboveValue;
            var oldDimensionWithSegmentsAboveValue = dimensionWithSegments.AboveValue;

            var setNewAboveValueDimension            = dimension.SetAboveValue("Above");
            var setNewAboveValueDimensionWithSegment = dimensionWithSegments.SetAboveValue("Above");

            var newAboveValueDimension            = dimension.AboveValue;
            var newAboveValueDimensionWithSegment = dimensionWithSegments.AboveValue;

            // Assert
            Assert.AreNotEqual(oldDimensionAboveValue, newAboveValueDimension);
            Assert.AreNotEqual(oldDimensionWithSegmentsAboveValue, newAboveValueDimensionWithSegment);

            CollectionAssert.AreEqual(expectedDimensionValue, newAboveValueDimension);
            CollectionAssert.AreEqual(expectedDimensionWithSegmentsValue, newAboveValueDimensionWithSegment);
        }
Esempio n. 10
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        public static IList <Element> OfElementType(Type elementType)
        {
            if (elementType == null)
            {
                return(null);
            }

            /*
             * (Konrad) According to RevitAPI documentation the quick filter
             * ElementClassFilter() has certain limitations that prevent it
             * from working on certain derived classes. In that case we need
             * to collect elements from base class and then perform additional
             * filtering to get our intended element set.
             */

            if (ClassFilterExceptions.Contains(elementType))
            {
                var type = GetClassFilterExceptionsValidType(elementType);
                return(new Autodesk.Revit.DB.FilteredElementCollector(DocumentManager.Instance.CurrentDBDocument)
                       .OfClass(type)
                       .Where(x => x.GetType() == elementType)
                       .Select(x => ElementSelector.ByElementId(x.Id.IntegerValue))
                       .ToList());
            }

            var classFilter = new Autodesk.Revit.DB.ElementClassFilter(elementType);

            return(new Autodesk.Revit.DB.FilteredElementCollector(DocumentManager.Instance.CurrentDBDocument)
                   .WherePasses(classFilter)
                   .ToElementIds()
                   .Select(x => ElementSelector.ByElementId(x.IntegerValue))
                   .ToList());
        }
Esempio n. 11
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        public void CanGetSpaceFinishBoundary()
        {
            // Arrange
            var space = ElementSelector.ByElementId(316365, true) as Space;
            List <List <Curve> > expectedBoundaries = new List <List <Curve> >()
            {
                new List <Curve>()
                {
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-741.333, 3845.025, 0.000),
                        Point.ByCoordinates(-8451.333, 3845.025, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8451.333, 3845.025, 0.000),
                        Point.ByCoordinates(-8451.333, -214.975, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8451.333, -214.975, 0.000),
                        Point.ByCoordinates(-741.333, -214.975, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-741.333, -214.975, 0.000),
                        Point.ByCoordinates(-741.333, 3845.025, 0.000)) as Curve
                }
            };

            // Act
            var boundaryLines = space.FinishBoundary;

            // Assert
            AssertBoundaryLists(expectedBoundaries, boundaryLines);
        }
Esempio n. 12
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        public void CanSaveFamilyInCurrentDocument()
        {
            // Arrange
            var    saveableFamily    = ElementSelector.ByElementId(110049, true);
            var    noneditableFamily = ElementSelector.ByElementId(20915, true);
            string savedFamilyName   = saveableFamily.Name + ".rfa";

            string nonExistingTempFolder = Path.Combine(Path.GetTempPath(), Path.GetRandomFileName());
            string existingTempFolder    = Path.Combine(Path.GetTempPath(), Path.GetRandomFileName());

            Directory.CreateDirectory(existingTempFolder);

            string expectedSavedFilePathNonExistingFolder = Path.GetFullPath(Path.Combine(nonExistingTempFolder, savedFamilyName));
            string expectedSavedFilePathExistingFolder    = Path.GetFullPath(Path.Combine(existingTempFolder, savedFamilyName));

            // Act
            var doc = Document.Current;
            var resultSavedFamilyInNonExistingFolder = doc.SaveFamilyToFolder((Family)saveableFamily, nonExistingTempFolder);
            var resultSavedFamilyInExistingFolder    = doc.SaveFamilyToFolder((Family)saveableFamily, existingTempFolder);
            var resultnoneditableFamily      = Assert.Throws <Autodesk.Revit.Exceptions.ArgumentException>(() => doc.SaveFamilyToFolder((Family)noneditableFamily, existingTempFolder));
            var fileExistInNonExistingFolder = File.Exists(Path.Combine(nonExistingTempFolder, savedFamilyName));
            var fileExistInExistingFolder    = File.Exists(Path.Combine(existingTempFolder, savedFamilyName));

            // Assert
            Assert.AreEqual(expectedSavedFilePathNonExistingFolder, resultSavedFamilyInNonExistingFolder);
            Assert.AreEqual(expectedSavedFilePathExistingFolder, resultSavedFamilyInExistingFolder);
            Assert.IsTrue(fileExistInNonExistingFolder);
            Assert.IsTrue(fileExistInExistingFolder);

            // Clean up
            Directory.Delete(nonExistingTempFolder, true);
            Directory.Delete(existingTempFolder, true);
        }
Esempio n. 13
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        public void CanGetSpaceCoreCenterBoundary()
        {
            // Arrange
            var space = ElementSelector.ByElementId(316365, true) as Space;
            List <List <Curve> > expectedBoundaries = new List <List <Curve> >()
            {
                new List <Curve>()
                {
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-678.833, 3907.525, 0.000),
                        Point.ByCoordinates(-8513.833, 3907.525, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8513.833, 3907.525, 0.000),
                        Point.ByCoordinates(-8513.833, -442.475, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-8513.833, -442.475, 0.000),
                        Point.ByCoordinates(-678.833, -442.475, 0.000)) as Curve,
                    Line.ByStartPointEndPoint(
                        Point.ByCoordinates(-678.833, -442.475, 0.000),
                        Point.ByCoordinates(-678.833, 3907.525, 0.000)) as Curve
                }
            };

            // Act
            var boundaryLines = space.CoreCenterBoundary;

            // Assert
            AssertBoundaryLists(expectedBoundaries, boundaryLines);
        }
Esempio n. 14
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        public void CanSuccessfullyGetElementPinnedStatus()
        {
            var pinnedElement = ElementSelector.ByElementId(184176, true);

            AssertElementPinnedStatusIs(pinnedElement, true);

            var unPinnedElement = ElementSelector.ByElementId(184324, true);

            AssertElementPinnedStatusIs(unPinnedElement, false);
        }
Esempio n. 15
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        public void CanCheckIfGroupIsAttached()
        {
            // Arrange
            var modelGroup    = ElementSelector.ByElementId(316699, true) as Group;
            var attachedGroup = ElementSelector.ByElementId(316701, true) as Group;

            // Assert
            Assert.AreEqual(false, modelGroup.IsAttached);
            Assert.AreEqual(true, attachedGroup.IsAttached);
        }
Esempio n. 16
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        public void ByFace_ShouldCreateFaceWall()
        {
            Element  elem     = ElementSelector.ByElementId(205302);
            var      refr     = elem.ElementFaceReferences[0].InternalReference;
            var      wallType = WallType.ByName("Generic - 5\"");
            FaceWall wall     = FaceWall.ByFace(Autodesk.Revit.DB.WallLocationLine.CoreCenterline, wallType, refr);

            Assert.NotNull(wall);
            Assert.AreEqual(wall.GetType(), typeof(FaceWall));
            Assert.NotNull(wall.InternalElement);
        }
Esempio n. 17
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        public void CanCheckIfPointIsInsideSpace()
        {
            // Arrange
            var space  = ElementSelector.ByElementId(316365, true) as Space;
            var point1 = Point.ByCoordinates(-6166.333, 6435.025, 0.000);
            var point2 = Point.ByCoordinates(-6166.333, 383.025, 0.000);

            // Assert
            Assert.AreEqual(false, space.IsPointInsideSpace(point1));
            Assert.AreEqual(true, space.IsPointInsideSpace(point2));
        }
Esempio n. 18
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        public void Solids_ExtractsSolidAccountingForInstanceTransform()
        {
            var ele    = ElementSelector.ByElementId(46874, true);
            var solids = ele.Solids;

            Assert.AreEqual(1, solids.Length);

            var bbox = BoundingBox.ByGeometry(solids);

            bbox.MaxPoint.ShouldBeApproximately(-64.266, -7.999, 60.693, 1e-3);
            bbox.MinPoint.ShouldBeApproximately(-92.708, -38.479, 0, 1e-3);
        }
Esempio n. 19
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        public void CanGetSpaceVolume()
        {
            // Arrange
            var    space          = ElementSelector.ByElementId(316365, true) as Space;
            double expectedVolume = 125.2104;

            // Act
            double spaceVolume = space.Volume;

            // Assert
            Assert.AreEqual(expectedVolume, spaceVolume, Tolerance);
        }
Esempio n. 20
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        public void CanGetSpaceArea()
        {
            // Arrange
            var    space        = ElementSelector.ByElementId(316365, true) as Space;
            double expectedArea = 31.302;

            // Act
            double spaceArea = space.Area;

            // Assert
            Assert.AreEqual(expectedArea, spaceArea, Tolerance);
        }
Esempio n. 21
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        public void ElementCurveReferences_ExtractsExpectedReferences()
        {
            var ele  = ElementSelector.ByElementId(32107, true);
            var refs = ele.ElementCurveReferences;

            Assert.AreEqual(4, refs.Length);

            foreach (var refer in refs)
            {
                Assert.AreEqual(32107, refer.InternalReference.ElementId.IntegerValue);
            }
        }
Esempio n. 22
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        public static object GetParameterValue(Autodesk.Revit.DB.Parameter param)
        {
            object result;

            switch (param.StorageType)
            {
            case StorageType.ElementId:
                int valueId = param.AsElementId().IntegerValue;
                if (valueId > 0)
                {
                    // When the element is obtained here, to convert it to our element wrapper, it
                    // need to be figured out whether this element is created by us. Here the existing
                    // element wrappers will be checked. If there is one, its property to specify
                    // whether it is created by us will be followed. If there is none, it means the
                    // element is not created by us.
                    var elem = ElementIDLifecycleManager <int> .GetInstance().GetFirstWrapper(valueId) as Element;

                    result = ElementSelector.ByElementId(valueId, elem == null ? true : elem.IsRevitOwned);
                }
                else
                {
                    int paramId = param.Id.IntegerValue;
                    if (paramId == (int)BuiltInParameter.ELEM_CATEGORY_PARAM || paramId == (int)BuiltInParameter.ELEM_CATEGORY_PARAM_MT)
                    {
                        var categories = DocumentManager.Instance.CurrentDBDocument.Settings.Categories;
                        result = new Category(categories.get_Item((BuiltInCategory)valueId));
                    }
                    else
                    {
                        // For other cases, return a localized string
                        result = param.AsValueString();
                    }
                }
                break;

            case StorageType.String:
                result = param.AsString();
                break;

            case StorageType.Integer:
                result = param.AsInteger();
                break;

            case StorageType.Double:
                result = param.AsDouble() * Revit.GeometryConversion.UnitConverter.HostToDynamoFactor(param.Definition.UnitType);
                break;

            default:
                throw new Exception(string.Format(Properties.Resources.ParameterWithoutStorageType, param));
            }

            return(result);
        }
Esempio n. 23
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        public void CanGetSpaceName()
        {
            // Arrange
            var    space        = ElementSelector.ByElementId(316365, true) as Space;
            string expectedName = "Space";

            // Act
            string spaceName = space.Name;

            // Assert
            Assert.AreEqual(expectedName, spaceName);
        }
Esempio n. 24
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        public void Solids_ExtractsSolidAccountingForInstanceTransform()
        {
            var ele    = ElementSelector.ByElementId(46874, true);
            var solids = ele.Solids;

            Assert.AreEqual(1, solids.Length);

            var bbox = BoundingBox.ByGeometry(solids);

            bbox.MaxPoint.ShouldBeApproximately(-210.846457, -26.243438, 199.124016, 1e-2);
            bbox.MinPoint.ShouldBeApproximately(-304.160105, -126.243438, 0, 1e-2);
        }
Esempio n. 25
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        public void CanGetSpaceNumber()
        {
            // Arrange
            var    space          = ElementSelector.ByElementId(316365, true) as Space;
            string expectedNumber = "1";

            // Act
            string spaceNumber = space.Number;

            // Assert
            Assert.AreEqual(expectedNumber, spaceNumber);
        }
Esempio n. 26
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        public static IList <Element> OfElementType(Type elementType)
        {
            var elFilter = new ElementClassFilter(elementType);
            var fec      = new FilteredElementCollector(DocumentManager.Instance.CurrentDBDocument);

            fec.WherePasses(elFilter);

            var instances = fec.ToElements()
                            .Select(x => ElementSelector.ByElementId(x.Id.IntegerValue)).ToList();

            return(instances);
        }
Esempio n. 27
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        public void CanGetSpaceHeight()
        {
            // Arrange
            var    space          = ElementSelector.ByElementId(316365, true) as Space;
            double expectedHeight = 4000;

            // Act
            double spaceHeight = space.Height;

            // Assert
            Assert.AreEqual(expectedHeight, spaceHeight, Tolerance);
        }
Esempio n. 28
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        public void CanGetElevationMarkerViewCount()
        {
            // Arrange
            var elevationMarker = ElementSelector.ByElementId(327385, true) as Revit.Elements.ElevationMarker;

            var expectedViewCount = 3;

            // Act
            var elevationMarkerViewCount = elevationMarker.CurrentViewCount;

            // Assert
            Assert.AreEqual(expectedViewCount, elevationMarkerViewCount);
        }
Esempio n. 29
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        public void CanSuccessfullySetAndGetElement()
        {
            var wall   = ElementSelector.ByElementId(184176, true);
            var famSym = FamilyType.ByName("18\" x 18\"");

            var name = "Column";

            wall.SetParameterByName(name, famSym);
            var sym = wall.GetParameterValueByName(name) as Element;

            Assert.NotNull(sym);
            Assert.AreEqual(sym.Name, "18\" x 18\"");
        }
Esempio n. 30
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        public static IList <Element> AtLevel(Level arg)
        {
            var levFilter = new ElementLevelFilter(arg.InternalLevel.Id);
            var fec       = new FilteredElementCollector(DocumentManager.Instance.CurrentDBDocument);
            var instances =
                fec.WherePasses(levFilter)
                .WhereElementIsNotElementType()
                .ToElementIds()
                .Select(id => ElementSelector.ByElementId(id.IntegerValue))
                .ToList();

            return(instances);
        }