/// <summary> /// Paint solid by AVF /// </summary> /// <param name="solid">Solid to be painted</param> /// <param name="view">The view that shows solid</param> private void PaintSolid(Solid solid, View view) { String viewName = view.Name; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); } if (m_schemaId != -1) { IList <int> results = sfm.GetRegisteredResults(); if (!results.Contains(m_schemaId)) { m_schemaId = -1; } } // set up the display style if (m_schemaId == -1) { AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("PaintedSolid " + viewName, "Description"); AnalysisDisplayStyle displayStyle = AnalysisDisplayStyle.CreateAnalysisDisplayStyle(this.RevitDoc, "Real_Color_Surface" + viewName, new AnalysisDisplayColoredSurfaceSettings(), new AnalysisDisplayColorSettings(), new AnalysisDisplayLegendSettings()); resultSchema1.AnalysisDisplayStyleId = displayStyle.Id; m_schemaId = sfm.RegisterResult(resultSchema1); } // get points of all faces in the solid FaceArray faces = solid.Faces; Transform trf = Transform.Identity; foreach (Face face in faces) { int idx = sfm.AddSpatialFieldPrimitive(face, trf); IList <UV> uvPts = null; IList <ValueAtPoint> valList = null; ComputeValueAtPointForFace(face, out uvPts, out valList, 1); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, m_schemaId); } }
public Autodesk.Revit.UI.Result Execute(ExternalCommandData commandData, ref string message, ElementSet elements) { ExternalCommandData cdata = commandData; Autodesk.Revit.ApplicationServices.Application app = commandData.Application.Application; Document doc = commandData.Application.ActiveUIDocument.Document; UIDocument uiDoc = commandData.Application.ActiveUIDocument; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(doc.ActiveView); if (sfm == null) sfm = SpatialFieldManager.CreateSpatialFieldManager(doc.ActiveView, 1); IList<Reference> refList = new List<Reference>(); refList = uiDoc.Selection.PickObjects(Autodesk.Revit.UI.Selection.ObjectType.Face); foreach (Reference reference in refList) { IList<UV> uvPts = new List<UV>(); List<double> doubleList = new List<double>(); IList<ValueAtPoint> valList = new List<ValueAtPoint>(); Face face = doc.GetElement(reference).GetGeometryObjectFromReference(reference)as Face; BoundingBoxUV bb = face.GetBoundingBox(); UV min = bb.Min; UV max = bb.Max; for (double u = min.U; u < max.U; u += (max.U - min.U) / 10) { for (double v = min.V; v < max.V; v += (max.V - min.V) / 10) { UV uv = new UV(u, v); if (face.IsInside(uv)) { uvPts.Add(uv); doubleList.Add(v + DateTime.Now.Second); valList.Add(new ValueAtPoint(doubleList)); doubleList.Clear(); } } } FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); int idx = sfm.AddSpatialFieldPrimitive(reference); AnalysisResultSchema resultSchema = new AnalysisResultSchema("Schema 1", "Schema 1 Description"); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, sfm.RegisterResult(resultSchema)); } return Result.Succeeded; }
public void CreateAnalysisSurface(UIDocument uiDoc, SpatialFieldManager sfm) { var idx = sfm.AddSpatialFieldPrimitive(Reference); var points = new FieldDomainPointsByUV(pointsUV); var fieldValues = new FieldValues(valList); var resultSchema = new AnalysisResultSchema(name, name); var schemaIndex = sfm.RegisterResult(resultSchema); try { sfm.UpdateSpatialFieldPrimitive(idx, points, fieldValues, schemaIndex); } catch { ////FIXME. don't catch nothing... } }
private void DisplayExisitingResults() { listViewResults.Items.Clear(); SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(doc.ActiveView); if (sfm != null) { IList <int> regIndices = sfm.GetRegisteredResults(); foreach (int i in regIndices) { AnalysisResultSchema result = sfm.GetResultSchema(i); ListViewItem item = new ListViewItem(result.Name); item.Name = result.Name; item.Tag = result; item.Checked = result.IsVisible; listViewResults.Items.Add(item); } } }
private static AnalysisResultSchema CreateResultSchemaWithUnitNames() { var resultSchema = new AnalysisResultSchema( // the name value of an AnalysisResultSchema must be unique, hence Date-Seconds "Space Syntax from " + DateTime.Now.ToString("dd.MM.yyyy HH:mm:ss"), "Space Syntax"); var unitNames = new List <string>(); unitNames.Add("Points"); var multipliers = new List <double>(); multipliers.Add(1.0); resultSchema.SetUnits(unitNames, multipliers); return(resultSchema); }
private int FindIndexOfResult(SpatialFieldManager sfm) { int index = 0; overwriteResult = false; IList <int> regIndices = sfm.GetRegisteredResults(); foreach (int i in regIndices) { AnalysisResultSchema result = sfm.GetResultSchema(i); if (result.Name == settings.LegendTitle) { index = i; overwriteResult = true; break; } } return(index); }
public static void PaintSolid(Document doc, Solid solid, double value) { Autodesk.Revit.DB.View view = doc.ActiveView; if (view.AnalysisDisplayStyleId == ElementId.InvalidElementId) { CreateAVFDisplayStyle(doc, view); } SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); } sfm.Clear(); IList <int> results = sfm.GetRegisteredResults(); AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("PaintedSolid2", "Description"); int schemaId = sfm.RegisterResult(resultSchema1); foreach (Face face in solid.Faces) { int idx = sfm.AddSpatialFieldPrimitive(face, Transform.Identity); IList <UV> uvPts = new List <UV>(); List <double> doubleList = new List <double>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); BoundingBoxUV bb = face.GetBoundingBox(); uvPts.Add(bb.Min); doubleList.Add(value); valList.Add(new ValueAtPoint(doubleList)); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, schemaId); } // UIDocument uidoc = new UIDocument(doc); //uidoc.RefreshActiveView(); }
/// <summary> /// Get the AnalysisResultsSchemaIndex for the SpatialFieldManager /// </summary> /// <returns></returns> protected int GetAnalysisResultSchemaIndex() { // Get the AnalysisResultSchema index - there is only one for Dynamo var schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(AbstractAnalysisDisplay.ResultsSchemaName, -1)) { var arses = SpatialFieldManager.GetRegisteredResults(); schemaIndex = arses.First( x => SpatialFieldManager.GetResultSchema(x).Name == AbstractAnalysisDisplay.ResultsSchemaName); } else { var ars = new AnalysisResultSchema(AbstractAnalysisDisplay.ResultsSchemaName, "Resulting analyses from Dynamo."); schemaIndex = SpatialFieldManager.RegisterResult(ars); } return(schemaIndex); }
public static void UpdateCO2eVisualization(SpatialFieldManager sfm, Element element) { try { logger.InfoFormat("Adding CO2e Analysis for element: {0}", element.Name); double CO2eForElement = 0; if (element.ParametersMap.Contains("CO2e")) { CO2eForElement = element.ParametersMap.get_Item("CO2e").AsDouble(); } int count = 0; foreach (Face face in GetFaces(element)) { var idx = sfm.AddSpatialFieldPrimitive(face.Reference); IList<UV> uvPts = new List<UV>(); IList<ValueAtPoint> valList = new List<ValueAtPoint>(); var bb = face.GetBoundingBox(); AddMeasurement(CO2eForElement, bb.Min.U, bb.Min.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Min.U, bb.Max.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Max.U, bb.Max.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Max.U, bb.Min.V, uvPts, valList); logger.DebugFormat("elementId: {0}, face: {1}, spf idx: {2}, bounding box: {3},{4},{5},{6}", element.Id.IntegerValue, count, idx, bb.Min.U, bb.Min.V, bb.Max.U, bb.Max.V); var pnts = new FieldDomainPointsByUV(uvPts); var vals = new FieldValues(valList); var resultSchema1 = new AnalysisResultSchema("CO2e schema", "AMEE CO2e schema"); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, GetFirstRegisteredResult(sfm, resultSchema1)); count++; } } catch (Exception e) { logger.Error(e); } }
public static void UpdateCO2eVisualization(SpatialFieldManager sfm, Element element) { try { logger.InfoFormat("Adding CO2e Analysis for element: {0}", element.Name); double CO2eForElement = 0; if (element.ParametersMap.Contains("CO2e")) { CO2eForElement = element.ParametersMap.get_Item("CO2e").AsDouble(); } int count = 0; foreach (Face face in GetFaces(element)) { var idx = sfm.AddSpatialFieldPrimitive(face.Reference); IList <UV> uvPts = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); var bb = face.GetBoundingBox(); AddMeasurement(CO2eForElement, bb.Min.U, bb.Min.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Min.U, bb.Max.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Max.U, bb.Max.V, uvPts, valList); AddMeasurement(CO2eForElement, bb.Max.U, bb.Min.V, uvPts, valList); logger.DebugFormat("elementId: {0}, face: {1}, spf idx: {2}, bounding box: {3},{4},{5},{6}", element.Id.IntegerValue, count, idx, bb.Min.U, bb.Min.V, bb.Max.U, bb.Max.V); var pnts = new FieldDomainPointsByUV(uvPts); var vals = new FieldValues(valList); var resultSchema1 = new AnalysisResultSchema("CO2e schema", "AMEE CO2e schema"); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, GetFirstRegisteredResult(sfm, resultSchema1)); count++; } } catch (Exception e) { logger.Error(e); } }
/// <summary> /// Get the AnalysisResultsSchemaIndex for the SpatialFieldManager /// </summary> /// <returns></returns> protected virtual int GetAnalysisResultSchemaIndex(string resultsSchemaName, string resultsDescription, Type unitType) { // Get the AnalysisResultSchema index - there is only one for Dynamo var schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(resultsSchemaName, -1)) { var arses = SpatialFieldManager.GetRegisteredResults(); schemaIndex = arses.First( x => SpatialFieldManager.GetResultSchema(x).Name == resultsSchemaName); } else { var ars = new AnalysisResultSchema(resultsSchemaName, resultsDescription); if (unitType != null) { if (typeof(SIUnit).IsAssignableFrom(unitType)) { var prop = unitType.GetProperty("Conversions"); var conversions = (Dictionary <string, double>)prop.GetValue(null, new object[] { }); if (conversions != null) { var unitNames = conversions.Keys.ToList(); var multipliers = conversions.Values.ToList(); ars.SetUnits(unitNames, multipliers); ars.CurrentUnits = 0; } } } schemaIndex = SpatialFieldManager.RegisterResult(ars); } return(schemaIndex); }
private static int registerResults(SpatialFieldManager sfm, string name, string description) { IList <int> results = sfm.GetRegisteredResults(); if ((results != null) && (results.Count > 0)) { for (int i = 0; i < results.Count; i++) { try { if (sfm.GetResultSchema(i).Name.ToUpper() == name.ToUpper()) { return(i); } } catch { } // ran into cases in 2015 where this produced "Non-existent schema" } } AnalysisResultSchema resultSchema1 = new AnalysisResultSchema(name, description); int result = sfm.RegisterResult(resultSchema1); return(result); }
public bool AnalysisByElements() { bool result = false; try { if (radianceDictionary.Count > 0) { int resultIndex = FindIndexOfResult(sfm); bool firstLoop = true; int index = sfm.AddSpatialFieldPrimitive();//not associated with any geometry IList <XYZ> xyzPoints = new List <XYZ>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); foreach (int keyIndex in radianceDictionary.Keys) { RadianceResult rr = radianceDictionary[keyIndex]; List <double> dblList = new List <double>(); //double values to be displayed on the face. dblList.Add(rr.Value1); dblList.Add(rr.Value2); dblList.Add(rr.Value3); if (dblList.Count != sfm.NumberOfMeasurements) { continue; } xyzPoints.Add(rr.PointXYZ); valList.Add(new ValueAtPoint(dblList)); //dblList.Clear(); } FieldDomainPointsByXYZ domainPoints = new FieldDomainPointsByXYZ(xyzPoints); FieldValues values = new FieldValues(valList); AnalysisResultSchema resultSchema = new AnalysisResultSchema(settings.LegendTitle, settings.LegendDescription); resultSchema.SetUnits(unitNames, multipliers); if (unitNames.Contains(settings.Units)) { resultSchema.CurrentUnits = unitNames.IndexOf(settings.Units); } if (overwriteResult) { sfm.SetResultSchema(resultIndex, resultSchema); } else if (firstLoop) { resultIndex = sfm.RegisterResult(resultSchema); firstLoop = false; } else { sfm.SetResultSchema(resultIndex, resultSchema); } sfm.UpdateSpatialFieldPrimitive(index, domainPoints, values, resultIndex); SetCurrentStyle(); result = true; } } catch (Exception ex) { MessageBox.Show("Failed to visulaize the FAR data. \n" + ex.Message, "FARCalculator : AnalysisByElements", MessageBoxButtons.OK, MessageBoxIcon.Warning); } return(result); }
/// <summary> /// Handle Revit Idling event. /// Return immediately if less time elapsed than /// specified interval. /// Otherwise, download the current image file /// from the specified URL. /// If it has not changed since the last update, /// return immediately. /// Otherwise, update the spatial field primitive /// with the new image data. /// Currently, we only display a grey scale image. /// Colour images could be handled as well by /// defining a custom colour palette. /// </summary> static void OnIdling( object sender, IdlingEventArgs e) { if (DateTime.Now.Subtract(_lastUpdate) > _interval) { Log("OnIdling"); GreyscaleBitmapData data = new GreyscaleBitmapData( _width, _height, _url); byte[] hash = data.HashValue; if (null == _lastHash || 0 != CompareBytes(hash, _lastHash)) { _lastHash = hash; // access active document from sender: // Support both 2011, where sender is an // Application instance, and 2012, where // it is a UIApplication instance: UIApplication uiapp = sender is UIApplication ? sender as UIApplication // 2012 : new UIApplication( sender as Application); // 2011 Debug.Assert(null != uiapp, "expected a valid Revit UIApplication instance"); UIDocument uidoc = uiapp.ActiveUIDocument; Document doc = uidoc.Document; Log("OnIdling image changed, active document " + doc.Title); Transaction transaction = new Transaction(doc, "Revit Webcam Update"); transaction.Start(); View view = doc.ActiveView; // maybe has to be 3D SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager( view); if (null == sfm) { sfm = SpatialFieldManager .CreateSpatialFieldManager(view, 1); } if (0 > _sfp_index) { _sfp_index = sfm.AddSpatialFieldPrimitive( _faceReference); } int nPoints = data.Width * data.Height; IList <UV> pts = new List <UV>(nPoints); IList <ValueAtPoint> valuesAtPoints = new List <ValueAtPoint>(nPoints); // warning CS0618: // GeometryObject is obsolete: Property will be removed. // Use Element.GetGeometryObjectFromReference(Reference) instead //Face face = _faceReference.GeometryObject as Face; // 2011 //Face face = doc.get_Element( _elementId ) // .GetGeometryObjectFromReference( // _faceReference ) as Face; // 2012 // warning CS0618: // Autodesk.Revit.DB.Document.get_Element(Autodesk.Revit.DB.ElementId) is obsolete: // This method has been obsoleted. Use GetElement() instead. //Element eFace = doc.get_Element( _elementId ); // 2012 Element eFace = doc.GetElement(_elementId); // 2013 Face face = eFace.GetGeometryObjectFromReference( _faceReference) as Face; // 2012 GetFieldPointsAndValues(ref pts, ref valuesAtPoints, ref data, face); FieldDomainPointsByUV fieldPoints = new FieldDomainPointsByUV(pts); FieldValues fieldValues = new FieldValues(valuesAtPoints); int result_index; IList <int> registeredResults = sfm.GetRegisteredResults(); if (0 == registeredResults.Count) { AnalysisResultSchema resultSchema = new AnalysisResultSchema( "Schema 1", "Schema 1 Description"); result_index = sfm.RegisterResult( resultSchema); } else { result_index = registeredResults.First(); } // warning CS0618: // UpdateSpatialFieldPrimitive(int, FieldDomainPoints, FieldValues) is obsolete: // This method is obsolete in Revit 2012; use the overload accepting the result index instead. //sfm.UpdateSpatialFieldPrimitive( // _sfp_index, fieldPoints, fieldValues ); // 2011 sfm.UpdateSpatialFieldPrimitive( _sfp_index, fieldPoints, fieldValues, result_index); // 2012 doc.Regenerate(); transaction.Commit(); _lastUpdate = DateTime.Now; } } }
public Autodesk.Revit.UI.Result Execute(ExternalCommandData commandData, ref string message, ElementSet elements) { ExternalCommandData cdata = commandData; Autodesk.Revit.ApplicationServices.Application app = commandData.Application.Application; Document doc = commandData.Application.ActiveUIDocument.Document; UIDocument uiDoc = commandData.Application.ActiveUIDocument; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(doc.ActiveView); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(doc.ActiveView, 1); } IList <Reference> refList = new List <Reference>(); try { refList = uiDoc.Selection.PickObjects(Autodesk.Revit.UI.Selection.ObjectType.Face); } catch (Exception) { // throw; } foreach (Reference reference in refList) { IList <UV> uvPts = new List <UV>(); //List<double> doubleList = new List<double>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); Face face = doc.GetElement(reference).GetGeometryObjectFromReference(reference) as Face; BoundingBoxUV bb = face.GetBoundingBox(); UV min = bb.Min; UV max = bb.Max; uvPts.Add(min); uvPts.Add(max); valList.Add(new ValueAtPoint(new List <double>() { 0 })); valList.Add(new ValueAtPoint(new List <double>() { 0 })); /* * for (double u = min.U; u < max.U; u += (max.U - min.U) / 10) * { * for (double v = min.V; v < max.V; v += (max.V - min.V) / 10) * { * UV uv = new UV(u, v); * if (face.IsInside(uv)) * { * uvPts.Add(uv); * doubleList.Add(0); * valList.Add(new ValueAtPoint(doubleList)); * doubleList.Clear(); * } * } * }*/ //FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); var points = new FieldDomainPointsByXYZ(new List <XYZ>() { new XYZ(0, 0, 0), new XYZ(0, 0, 10) }); FieldValues vals = new FieldValues(valList); int idx = sfm.AddSpatialFieldPrimitive(reference); AnalysisResultSchema resultSchema = new AnalysisResultSchema("Schema 1", "Schema 1 Description"); sfm.UpdateSpatialFieldPrimitive(idx, points, vals, sfm.RegisterResult(resultSchema)); } return(Result.Succeeded); }
/// <summary> /// The unique name for Dynamo's Analysis Results. Used to identify /// the results scheme. /// </summary> //protected static string ResultsSchemaName = "Dynamo Analysis Results"; /// <summary> /// Get the AnalysisResultsSchemaIndex for the SpatialFieldManager /// </summary> /// <returns></returns> protected virtual int GetAnalysisResultSchemaIndex(string resultsSchemaName, string resultsDescription, Type unitType) { // Get the AnalysisResultSchema index - there is only one for Dynamo var schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(resultsSchemaName, -1)) { var arses = SpatialFieldManager.GetRegisteredResults(); schemaIndex = arses.First( x => SpatialFieldManager.GetResultSchema(x).Name == resultsSchemaName); } else { var ars = new AnalysisResultSchema(resultsSchemaName, resultsDescription); if (unitType != null) { if (typeof(SIUnit).IsAssignableFrom(unitType)) { var prop = unitType.GetProperty("Conversions"); var conversions = (Dictionary<string, double>)prop.GetValue(null, new object[] { }); if (conversions != null) { var unitNames = conversions.Keys.ToList(); var multipliers = conversions.Values.ToList(); ars.SetUnits(unitNames, multipliers); ars.CurrentUnits = 0; } } } schemaIndex = SpatialFieldManager.RegisterResult(ars); } return schemaIndex; }
public override Value Evaluate(FSharpList<Value> args) { SpatialFieldManager sfm = ((Value.Container)args[2]).Item as SpatialFieldManager; //first, cleanup the old one if (idx != -1) { sfm.RemoveSpatialFieldPrimitive(idx); } Reference reference = ((Value.Container)args[3]).Item as Reference; idx = sfm.AddSpatialFieldPrimitive(reference); Face face = dynRevitSettings.Doc.Document.GetElement(reference).GetGeometryObjectFromReference(reference) as Face; //unwrap the sample locations IEnumerable<UV> pts = ((Value.List)args[1]).Item.Select( x => (UV)((Value.Container)x).Item ); FieldDomainPointsByUV sample_pts = new FieldDomainPointsByUV(pts.ToList<UV>()); //unwrap the values IEnumerable<double> nvals = ((Value.List)args[0]).Item.Select( x => (double)((Value.Number)x).Item ); //for every sample location add a list //of valueatpoint objets. for now, we only //support one value per point IList<ValueAtPoint> valList = new List<ValueAtPoint>(); foreach (var n in nvals) { valList.Add(new ValueAtPoint(new List<double>{n})); } FieldValues sample_values = new FieldValues(valList); int schemaIndex = 0; if (!sfm.IsResultSchemaNameUnique(DYNAMO_ANALYSIS_RESULTS_NAME, -1)) { IList<int> arses = sfm.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = sfm.GetResultSchema(i); if (arsTest.Name == DYNAMO_ANALYSIS_RESULTS_NAME) { schemaIndex = i; break; } } } else { AnalysisResultSchema ars = new AnalysisResultSchema(DYNAMO_ANALYSIS_RESULTS_NAME, "Resulting analyses from Dynamo."); schemaIndex = sfm.RegisterResult(ars); } sfm.UpdateSpatialFieldPrimitive(idx, sample_pts, sample_values, schemaIndex); return Value.NewContainer(idx); }
public override Value Evaluate(FSharpList <Value> args) { this.ClearPreviousResults(); //allow the user to pass in a list or a single item. IEnumerable <double> nvals; if (args[0].IsList) { //unwrap the values nvals = ((Value.List)args[0]).Item.Select( x => (double)((Value.Number)x).Item ); } else { //put the one value into the list nvals = new List <double> { ((Value.Number)args[0]).Item }; } //unwrap the sample locations IEnumerable <XYZ> pts = ((Value.List)args[1]).Item.Select( x => (XYZ)((Value.Container)x).Item ); SpatialFieldManager = ((Value.Container)args[2]).Item as Autodesk.Revit.DB.Analysis.SpatialFieldManager; int idx = SpatialFieldManager.AddSpatialFieldPrimitive(); var samplePts = new FieldDomainPointsByXYZ(pts.ToList <XYZ>()); //for every sample location add a list //of valueatpoint objects. for now, we only //support one value per point IList <ValueAtPoint> valList = nvals.Select(n => new ValueAtPoint(new List <double> { n })).ToList(); var sampleValues = new FieldValues(valList); int schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(DYNAMO_ANALYSIS_RESULTS_NAME, -1)) { IList <int> arses = SpatialFieldManager.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = SpatialFieldManager.GetResultSchema(i); if (arsTest.Name == DYNAMO_ANALYSIS_RESULTS_NAME) { schemaIndex = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_ANALYSIS_RESULTS_NAME, "Resulting analyses from Dynamo."); schemaIndex = SpatialFieldManager.RegisterResult(ars); } SpatialFieldManager.UpdateSpatialFieldPrimitive(idx, samplePts, sampleValues, schemaIndex); PastResultIds.Add(idx); return(Value.NewContainer(idx)); }
public bool AnalysisByElements() { bool result = false; try { if (areaDictionary.Count > 0) { int resultIndex = FindIndexOfResult(sfm); bool firstLoop = true; foreach (int areaId in areaDictionary.Keys) { AreaProperties ap = areaDictionary[areaId]; List <double> dblList = new List <double>(); //double values to be displayed on the face. Face face = ap.BaseFace; dblList.Add(ap.FAR); if (dblList.Count != sfm.NumberOfMeasurements) { continue; } int index = sfm.AddSpatialFieldPrimitive(face, Transform.Identity); IList <UV> uvPts = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); BoundingBoxUV bb = face.GetBoundingBox(); UV faceCenter = (bb.Min + bb.Max) / 2; //only collect a center point. uvPts.Add(faceCenter); valList.Add(new ValueAtPoint(dblList)); //dblList.Clear(); FieldDomainPointsByUV domainPoints = new FieldDomainPointsByUV(uvPts); FieldValues values = new FieldValues(valList); AnalysisResultSchema resultSchema = new AnalysisResultSchema(settings.LegendTitle, settings.LegendDescription); resultSchema.SetUnits(unitNames, multipliers); if (unitNames.Contains(settings.Units)) { resultSchema.CurrentUnits = unitNames.IndexOf(settings.Units); } if (overwriteResult) { sfm.SetResultSchema(resultIndex, resultSchema); } else if (firstLoop) { resultIndex = sfm.RegisterResult(resultSchema); firstLoop = false; } else { sfm.SetResultSchema(resultIndex, resultSchema); } sfm.UpdateSpatialFieldPrimitive(index, domainPoints, values, resultIndex); } SetCurrentStyle(); result = true; } } catch (Exception ex) { MessageBox.Show("Failed to visulaize the FAR data. \n" + ex.Message, "FARCalculator : AnalysisByElements", MessageBoxButtons.OK, MessageBoxIcon.Warning); } return(result); }
public override Value Evaluate(FSharpList <Value> args) { sfm = ((Value.Container)args[2]).Item as SpatialFieldManager; var reference = (args[3] as Value.Container).Item as Reference; var face = (reference == null) ? ((args[3] as Value.Container).Item as Face) : dynRevitSettings.Doc.Document.GetElement(reference).GetGeometryObjectFromReference(reference) as Face; //if we received a face instead of a reference //then use the reference from the face if (reference == null && face != null) { reference = face.Reference; } if (reference == null) { throw new Exception("Could not resolved a referenced for the face."); } int idx = sfm.AddSpatialFieldPrimitive(reference); //unwrap the sample locations IEnumerable <UV> pts = ((Value.List)args[1]).Item.Select( x => (UV)((Value.Container)x).Item ); var samplePts = new FieldDomainPointsByUV(pts.ToList <UV>()); //unwrap the values IEnumerable <double> nvals = ((Value.List)args[0]).Item.Select( x => (double)((Value.Number)x).Item ); //for every sample location add a list //of valueatpoint objects. for now, we only //support one value per point IList <ValueAtPoint> valList = nvals.Select(n => new ValueAtPoint(new List <double> { n })).ToList(); var sampleValues = new FieldValues(valList); int schemaIndex = 0; if (!sfm.IsResultSchemaNameUnique(DYNAMO_ANALYSIS_RESULTS_NAME, -1)) { IList <int> arses = sfm.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = sfm.GetResultSchema(i); if (arsTest.Name == DYNAMO_ANALYSIS_RESULTS_NAME) { schemaIndex = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_ANALYSIS_RESULTS_NAME, "Resulting analyses from Dynamo."); schemaIndex = sfm.RegisterResult(ars); } sfm.UpdateSpatialFieldPrimitive(idx, samplePts, sampleValues, schemaIndex); idxs.Add(idx); return(Value.NewContainer(idx)); }
//accumulative values on grid points private bool MeasureAccDistance() { bool result = false; try { //find walls located inside the selected rooms FindWallFacesOnRoom(); //Find point of view from the sphere element FamilyInstance sphere = FindPointOfView(); if (null != sphere) { LocationPoint location = sphere.Location as LocationPoint; XYZ pointXYZ = location.Point; XYZ vectorZ = new XYZ(0, 0, 1); #if RELEASE2013 Transform transform = Transform.get_Translation(vectorZ); #else Transform transform = Transform.CreateTranslation(vectorZ); #endif int resultIndex = FindIndexOfResult(sfm); bool firstLoop = true; foreach (int roomId in roomFaces.Keys) { Face roomFace = roomFaces[roomId]; int index = sfm.AddSpatialFieldPrimitive(roomFace, transform); List <double> doubleList = new List <double>(); IList <UV> uvPoints = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); BoundingBoxUV boundingBox = roomFace.GetBoundingBox(); for (double u = boundingBox.Min.U; u < boundingBox.Max.U; u = u + (boundingBox.Max.U - boundingBox.Min.U) / 15) { for (double v = boundingBox.Min.V; v < boundingBox.Max.V; v = v + (boundingBox.Max.V - boundingBox.Min.V) / 15) { UV uvPoint = new UV(u, v); XYZ xyzPoint = roomFace.Evaluate(uvPoint); uvPoints.Add(uvPoint); #if RELEASE2013 Line line = doc.Application.Create.NewLine(pointXYZ, xyzPoint, true); #else Line line = Line.CreateBound(pointXYZ, xyzPoint); #endif //double dblValue = 1 / (line.ApproximateLength); double dblValue = 1; IntersectionResultArray resultArray; foreach (int wallId in wallFaces.Keys) { Face wallFace = wallFaces[wallId]; SetComparisonResult compResult = wallFace.Intersect(line, out resultArray); if (compResult == SetComparisonResult.Overlap && null != resultArray) { if (dblValue > 0) { dblValue = 0 - resultArray.Size; } else { dblValue = -resultArray.Size; } } } doubleList.Add(dblValue); valList.Add(new ValueAtPoint(doubleList)); doubleList.Clear(); } } FieldDomainPointsByUV domainPoints = new FieldDomainPointsByUV(uvPoints); FieldValues values = new FieldValues(valList); AnalysisResultSchema resultSchema = new AnalysisResultSchema(settings.LegendTitle, settings.LegendDescription); resultSchema.SetUnits(unitNames, multipliers); if (unitNames.Contains(settings.Units)) { resultSchema.CurrentUnits = unitNames.IndexOf(settings.Units); } if (overwriteResult) { sfm.SetResultSchema(resultIndex, resultSchema); } else if (firstLoop) { resultIndex = sfm.RegisterResult(resultSchema); firstLoop = false; } else { sfm.SetResultSchema(resultIndex, resultSchema); } sfm.UpdateSpatialFieldPrimitive(index, domainPoints, values, resultIndex); } } } catch (Exception ex) { MessageBox.Show("Failed to measure distance from the point element to the points on Room face.\n" + ex.Message, "FieldOfViewAnalysis", MessageBoxButtons.OK, MessageBoxIcon.Warning); result = false; } return(result); }
private static int GetFirstRegisteredResult(SpatialFieldManager sfm, AnalysisResultSchema analysisResultSchema) { IList<int> registeredResults = new List<int>(); registeredResults = sfm.GetRegisteredResults(); return registeredResults.Count == 0 ? sfm.RegisterResult(analysisResultSchema) : registeredResults.First(); }
public void Execute(UpdaterData data) { Document doc = data.GetDocument(); Autodesk.Revit.ApplicationServices.Application app = doc.Application; View view = doc.get_Element(viewID) as View; FamilyInstance sphere = doc.get_Element(sphereID) as FamilyInstance; LocationPoint sphereLP = sphere.Location as LocationPoint; XYZ sphereXYZ = sphereLP.Point; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 3); // Three measurement values for each point sfm.Clear(); FilteredElementCollector collector = new FilteredElementCollector(doc,view.Id); ElementCategoryFilter wallFilter = new ElementCategoryFilter(BuiltInCategory.OST_Walls); ElementCategoryFilter massFilter = new ElementCategoryFilter(BuiltInCategory.OST_Mass); LogicalOrFilter filter = new LogicalOrFilter(wallFilter, massFilter); ICollection<Element> elements = collector.WherePasses(filter).WhereElementIsNotElementType().ToElements(); foreach (Face face in GetFaces(elements)) { int idx = sfm.AddSpatialFieldPrimitive(face.Reference); List<double> doubleList = new List<double>(); IList<UV> uvPts = new List<UV>(); IList<ValueAtPoint> valList = new List<ValueAtPoint>(); BoundingBoxUV bb = face.GetBoundingBox(); for (double u = bb.Min.U; u < bb.Max.U; u = u + (bb.Max.U - bb.Min.U) / 15) { for (double v = bb.Min.V; v < bb.Max.V; v = v + (bb.Max.V - bb.Min.V) / 15) { UV uvPnt = new UV(u, v); uvPts.Add(uvPnt); XYZ faceXYZ = face.Evaluate(uvPnt); // Specify three values for each point doubleList.Add(faceXYZ.DistanceTo(sphereXYZ)); doubleList.Add(-faceXYZ.DistanceTo(sphereXYZ)); doubleList.Add(faceXYZ.DistanceTo(sphereXYZ) * 10); valList.Add(new ValueAtPoint(doubleList)); doubleList.Clear(); } } FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("Schema 1", "Schema 1 Description"); IList<int> registeredResults = new List<int>(); registeredResults = sfm.GetRegisteredResults(); int idx1 = 0; if (registeredResults.Count == 0) { idx1 = sfm.RegisterResult(resultSchema1); } else { idx1 = registeredResults.First(); } sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, idx1); } }
/// <summary> /// Get the AnalysisResultsSchemaIndex for the SpatialFieldManager /// </summary> /// <returns></returns> protected int GetAnalysisResultSchemaIndex() { // Get the AnalysisResultSchema index - there is only one for Dynamo var schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(AbstractAnalysisDisplay.ResultsSchemaName, -1)) { var arses = SpatialFieldManager.GetRegisteredResults(); schemaIndex = arses.First( x => SpatialFieldManager.GetResultSchema(x).Name == AbstractAnalysisDisplay.ResultsSchemaName); } else { var ars = new AnalysisResultSchema(AbstractAnalysisDisplay.ResultsSchemaName, "Resulting analyses from Dynamo."); schemaIndex = SpatialFieldManager.RegisterResult(ars); } return schemaIndex; }
public override Value Evaluate(FSharpList<Value> args) { this.ClearPreviousResults(); SpatialFieldManager = ((Value.Container)args[2]).Item as Autodesk.Revit.DB.Analysis.SpatialFieldManager; var reference = (args[3] as Value.Container).Item as Reference; var face = (reference == null) ? ((args[3] as Value.Container).Item as Face) : dynRevitSettings.Doc.Document.GetElement(reference).GetGeometryObjectFromReference(reference) as Face; //if we received a face instead of a reference //then use the reference from the face if (reference == null && face != null) reference = face.Reference; if (reference == null) throw new Exception("Could not resolved a referenced for the face."); int idx = SpatialFieldManager.AddSpatialFieldPrimitive(reference); //unwrap the sample locations IEnumerable<UV> pts = ((Value.List)args[1]).Item.Select( x => (UV)((Value.Container)x).Item ); var samplePts = new FieldDomainPointsByUV(pts.ToList<UV>()); //unwrap the values IEnumerable<double> nvals = ((Value.List)args[0]).Item.Select( x => (double)((Value.Number)x).Item ); //for every sample location add a list //of valueatpoint objects. for now, we only //support one value per point IList<ValueAtPoint> valList = nvals.Select(n => new ValueAtPoint(new List<double> {n})).ToList(); var sampleValues = new FieldValues(valList); int schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(DYNAMO_ANALYSIS_RESULTS_NAME, -1)) { IList<int> arses = SpatialFieldManager.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = SpatialFieldManager.GetResultSchema(i); if (arsTest.Name == DYNAMO_ANALYSIS_RESULTS_NAME) { schemaIndex = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_ANALYSIS_RESULTS_NAME, "Resulting analyses from Dynamo."); schemaIndex = SpatialFieldManager.RegisterResult(ars); } SpatialFieldManager.UpdateSpatialFieldPrimitive(idx, samplePts, sampleValues, schemaIndex); PastResultIds.Add(idx); return Value.NewContainer(idx); }
/// <summary> /// The idling callback which adds data to the AVF results. /// </summary> /// <param name="sender"></param> /// <param name="e"></param> public void UpdateWhileIdling(object sender, IdlingEventArgs e) { UIApplication uiApp = sender as UIApplication; // Get SpatialFieldManager AnalysisResultSchema resultSchema = new AnalysisResultSchema("Schema Name", "Description"); SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(uiApp.ActiveUIDocument.Document.ActiveView); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(uiApp.ActiveUIDocument.Document.ActiveView, 1); } int schemaIndex = sfm.RegisterResult(resultSchema); // If stopping, clear results and unset event. if (m_stop) { lock (results) { results.Clear(); } uiApp.Idling -= UpdateWhileIdling; return; } // If document was closed and new document opened, do not run the update. if (uiApp.ActiveUIDocument.Document.PathName == m_docName) { // Lock access to current calculated results lock (results) { if (results.Count == 0) { return; } // Turn each result to an AVF ValueAtPoint foreach (ResultsData rData in results) { uvPts.Add(new UV(rData.UV.U, rData.UV.V)); IList <double> doubleList = new List <double>(); doubleList.Add(rData.Value); valList.Add(new ValueAtPoint(doubleList)); } FieldDomainPointsByUV pntsByUV = new FieldDomainPointsByUV(uvPts); FieldValues fieldValues = new FieldValues(valList); // Update with calculated values Transaction t = new Transaction(uiApp.ActiveUIDocument.Document); t.SetName("AVF"); t.Start(); if (!m_stop) { sfm.UpdateSpatialFieldPrimitive(s_spatialFieldId, pntsByUV, fieldValues, schemaIndex); } t.Commit(); // Clear results already processed. results.Clear(); // If no more results to process, remove the idling event if (m_uvToCalculateCount == 0) { uiApp.Idling -= UpdateWhileIdling; s_oldViewId = s_activeViewId; s_oldSpatialFieldId = s_spatialFieldId; } } } }
/// <summary> /// External webcam event handler. /// </summary> public void Execute(UIApplication uiapp) { UIDocument uidoc = uiapp.ActiveUIDocument; Document doc = uidoc.Document; Log("OnIdling image changed, active document " + doc.Title); Transaction transaction = new Transaction(doc); transaction.Start("Revit Webcam Update"); View view = doc.ActiveView; // maybe has to be 3D SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager( view); if (null == sfm) { sfm = SpatialFieldManager .CreateSpatialFieldManager(view, 1); } if (0 > _sfp_index) { _sfp_index = sfm.AddSpatialFieldPrimitive( _faceReference); } int nPoints = _width * _height; // _data.Width * _data.Height; IList <UV> pts = new List <UV>(nPoints); IList <ValueAtPoint> valuesAtPoints = new List <ValueAtPoint>(nPoints); Element eFace = doc.GetElement( _faceReference.ElementId); // 2013 Face face = eFace.GetGeometryObjectFromReference( _faceReference) as Face; // 2012 GetFieldPointsAndValues(ref pts, ref valuesAtPoints, face); FieldDomainPointsByUV fieldPoints = new FieldDomainPointsByUV(pts); FieldValues fieldValues = new FieldValues(valuesAtPoints); int result_index; IList <int> registeredResults = sfm.GetRegisteredResults(); if (0 == registeredResults.Count) { AnalysisResultSchema resultSchema = new AnalysisResultSchema( "Schema 1", "Schema 1 Description"); result_index = sfm.RegisterResult( resultSchema); } else { result_index = registeredResults.First(); } sfm.UpdateSpatialFieldPrimitive( _sfp_index, fieldPoints, fieldValues, result_index); // 2012 doc.Regenerate(); transaction.Commit(); }
private bool AnalysisByFaces(SpatialFieldManager sfm) { bool result = false; progressBar.Maximum = settings.SelectedElements.Count; try { Options options = new Options(); options.ComputeReferences = true; Dictionary <ElementId, Dictionary <Reference, Face> > selectedFaces = new Dictionary <ElementId, Dictionary <Reference, Face> >(); selectedFaces = settings.SelectedFaces; Dictionary <Face, Dictionary <Reference, List <double> /*paramValues*/> > faceDictionary = new Dictionary <Face, Dictionary <Reference, List <double> /*paramValues*/> >(); foreach (Element element in settings.SelectedElements) { ElementId elementId = element.Id; if (!selectedFaces.ContainsKey(elementId)) { continue; } List <double> valueLists = new List <double>(); foreach (string paramName in settings.Configurations.Keys) { #if RELEASE2015 || RELEASE2016 || RELEASE2017 Parameter param = element.LookupParameter(paramName); #else Parameter param = element.get_Parameter(paramName); #endif if (param != null) { double value = param.AsDouble(); valueLists.Add(value); } else { valueLists.Add(0); } } foreach (Reference reference in selectedFaces[elementId].Keys) { if (null != selectedFaces[elementId][reference] && valueLists.Count == settings.NumberOfMeasurement) { Face face = selectedFaces[elementId][reference]; faceDictionary.Add(face, new Dictionary <Reference, List <double> >()); faceDictionary[face].Add(reference, valueLists); //break; } } progressBar.PerformStep(); } int resultIndex = FindIndexOfResult(sfm); bool firstLoop = true; foreach (Face face in faceDictionary.Keys) { Reference reference = faceDictionary[face].Keys.First(); List <double> dblList = new List <double>();//double values to be displayed on the face. dblList = faceDictionary[face][reference]; int index = sfm.AddSpatialFieldPrimitive(reference); IList <UV> uvPts = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); BoundingBoxUV bb = face.GetBoundingBox(); UV faceCenter = (bb.Min + bb.Max) / 2; //only collect a center point. uvPts.Add(faceCenter); valList.Add(new ValueAtPoint(dblList)); //dblList.Clear(); FieldDomainPointsByUV domainPoints = new FieldDomainPointsByUV(uvPts); FieldValues values = new FieldValues(valList); AnalysisResultSchema resultSchema = new AnalysisResultSchema(settings.LegendTitle, settings.LegendDescription); resultSchema.SetUnits(unitNames, multipliers); if (unitNames.Contains(settings.Units)) { resultSchema.CurrentUnits = unitNames.IndexOf(settings.Units); } if (overwriteResult) { sfm.SetResultSchema(resultIndex, resultSchema); } else if (firstLoop) { resultIndex = sfm.RegisterResult(resultSchema); firstLoop = false; } else { sfm.SetResultSchema(resultIndex, resultSchema); } sfm.UpdateSpatialFieldPrimitive(index, domainPoints, values, resultIndex); } SetCurrentStyle(); result = true; } catch (Exception ex) { MessageBox.Show("Failed to analyze elements. \n" + ex.Message, "AnalysisDataManager : ElementAnalysis", MessageBoxButtons.OK, MessageBoxIcon.Warning); } return(result); }
public void Execute(UpdaterData data) { Document doc = data.GetDocument(); Autodesk.Revit.ApplicationServices.Application app = doc.Application; View view = doc.GetElement(viewID) as View; FamilyInstance sphere = doc.GetElement(sphereID) as FamilyInstance; LocationPoint sphereLP = sphere.Location as LocationPoint; XYZ sphereXYZ = sphereLP.Point; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 3); // Three measurement values for each point } sfm.Clear(); FilteredElementCollector collector = new FilteredElementCollector(doc, view.Id); ElementCategoryFilter wallFilter = new ElementCategoryFilter(BuiltInCategory.OST_Walls); ElementCategoryFilter massFilter = new ElementCategoryFilter(BuiltInCategory.OST_Mass); LogicalOrFilter filter = new LogicalOrFilter(wallFilter, massFilter); ICollection <Element> elements = collector.WherePasses(filter).WhereElementIsNotElementType().ToElements(); foreach (Face face in GetFaces(elements)) { int idx = sfm.AddSpatialFieldPrimitive(face.Reference); List <double> doubleList = new List <double>(); IList <UV> uvPts = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); BoundingBoxUV bb = face.GetBoundingBox(); for (double u = bb.Min.U; u < bb.Max.U; u = u + (bb.Max.U - bb.Min.U) / 15) { for (double v = bb.Min.V; v < bb.Max.V; v = v + (bb.Max.V - bb.Min.V) / 15) { UV uvPnt = new UV(u, v); uvPts.Add(uvPnt); XYZ faceXYZ = face.Evaluate(uvPnt); // Specify three values for each point doubleList.Add(faceXYZ.DistanceTo(sphereXYZ)); doubleList.Add(-faceXYZ.DistanceTo(sphereXYZ)); doubleList.Add(faceXYZ.DistanceTo(sphereXYZ) * 10); valList.Add(new ValueAtPoint(doubleList)); doubleList.Clear(); } } FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("Schema 1", "Schema 1 Description"); IList <int> registeredResults = new List <int>(); registeredResults = sfm.GetRegisteredResults(); int idx1 = 0; if (registeredResults.Count == 0) { idx1 = sfm.RegisterResult(resultSchema1); } else { idx1 = registeredResults.First(); } sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, idx1); } }
public override Value Evaluate(FSharpList<Value> args) { SpatialFieldManager sfm = ((Value.Container)args[1]).Item as SpatialFieldManager; //first, cleanup the old one if(idxs.Count > 0) { foreach (int idx in idxs) { sfm.RemoveSpatialFieldPrimitive(idx); } } if (!sfm.IsResultSchemaNameUnique(DYNAMO_TEMP_CURVES_SCHEMA, -1)) { IList<int> arses = sfm.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = sfm.GetResultSchema(i); if (arsTest.Name == DYNAMO_TEMP_CURVES_SCHEMA) { schemaId = i; break; } } } else { AnalysisResultSchema ars = new AnalysisResultSchema(DYNAMO_TEMP_CURVES_SCHEMA, "Temporary curves from Dynamo."); schemaId = sfm.RegisterResult(ars); } Transform trf = Transform.Identity; //get the list of pairs FSharpList<Value> listOfPairs = ((Value.List)args[0]).Item; foreach (Value expr in listOfPairs) { FSharpList<Value> pair = ((Value.List)expr).Item; XYZ start = (XYZ)((Value.Container)pair[0]).Item; XYZ end = (XYZ)((Value.Container)pair[1]).Item; XYZ start1 = start + XYZ.BasisZ * .1; XYZ end1 = end + XYZ.BasisZ * .1; //http://thebuildingcoder.typepad.com/blog/2012/09/sphere-creation-for-avf-and-filtering.html#3 var create = dynRevitSettings.Doc.Application.Application.Create; Line l1 = create.NewLineBound(start, end); Line l2 = create.NewLineBound(end, end1); Line l3 = create.NewLineBound(end1, start1); Line l4 = create.NewLineBound(start1, start); List<CurveLoop> loops = new List<CurveLoop>(); CurveLoop cl = new CurveLoop(); cl.Append(l1); cl.Append(l2); cl.Append(l3); cl.Append(l4); loops.Add(cl); Solid s = GeometryCreationUtilities.CreateExtrusionGeometry(loops, (end-start).CrossProduct(start1-start), .01); foreach (Face face in s.Faces) { int idx = sfm.AddSpatialFieldPrimitive(face, trf); //need to use double parameters because //we're drawing lines IList<UV> uvPts = new List<UV>(); uvPts.Add(face.GetBoundingBox().Min); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); List<double> doubleList = new List<double>(); doubleList.Add(0); IList<ValueAtPoint> valList = new List<ValueAtPoint>(); valList.Add(new ValueAtPoint(doubleList)); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive( idx, pnts, vals, schemaId); idxs.Add(idx); } } return Value.NewList(Utils.SequenceToFSharpList(idxs.Select(x => Value.NewNumber(x)))); }
public override Value Evaluate(FSharpList <Value> args) { //unwrap the values IEnumerable <double> nvals = ((Value.List)args[0]).Item.Select(q => (double)((Value.Number)q).Item); var curve = (Curve)((Value.Container)args[1]).Item; sfm = (SpatialFieldManager)((Value.Container)args[2]).Item; if (!sfm.IsResultSchemaNameUnique(DYNAMO_TEMP_CURVES_SCHEMA, -1)) { IList <int> arses = sfm.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = sfm.GetResultSchema(i); if (arsTest.Name == DYNAMO_TEMP_CURVES_SCHEMA) { schemaId = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_TEMP_CURVES_SCHEMA, "Temporary curves from Dynamo."); schemaId = sfm.RegisterResult(ars); } Transform trf = Transform.Identity; //http://thebuildingcoder.typepad.com/blog/2012/09/sphere-creation-for-avf-and-filtering.html#3 var create = dynRevitSettings.Doc.Application.Application.Create; Transform t = curve.ComputeDerivatives(0, true); XYZ x = t.BasisX.Normalize(); XYZ y = t.BasisX.IsAlmostEqualTo(XYZ.BasisZ) ? t.BasisX.CrossProduct(XYZ.BasisY).Normalize() : t.BasisX.CrossProduct(XYZ.BasisZ).Normalize(); XYZ z = x.CrossProduct(y); Ellipse arc1 = dynRevitSettings.Revit.Application.Create.NewEllipse(t.Origin, .1, .1, y, z, -Math.PI, 0); Ellipse arc2 = dynRevitSettings.Revit.Application.Create.NewEllipse(t.Origin, .1, .1, y, z, 0, Math.PI); var pathLoop = new CurveLoop(); pathLoop.Append(curve); var profileLoop = new CurveLoop(); profileLoop.Append(arc1); profileLoop.Append(arc2); double curveDomain = curve.get_EndParameter(1) - curve.get_EndParameter(0); int idx = -1; var s = GeometryCreationUtilities.CreateSweptGeometry(pathLoop, 0, 0, new List <CurveLoop> { profileLoop }); foreach (Face face in s.Faces) { //divide the V domain by the number of incoming BoundingBoxUV domain = face.GetBoundingBox(); double vSpan = domain.Max.V - domain.Min.V; //analysis values idx = sfm.AddSpatialFieldPrimitive(face, trf); //a list to hold the analysis points IList <UV> uvPts = new List <UV>(); //a list to hold the analysis values IList <ValueAtPoint> valList = new List <ValueAtPoint>(); //int count = nvals.Count(); //this is creating a lot of sample points, but if we used less //sampling points, AVF would draw the two surfaces as if there was a hard //edge between them. this provides a better blend. int count = 10; for (int i = 0; i < count; i++) { //get a UV point on the face //find its XYZ location and project to //the underlying curve. find the value which corresponds //to the location on the curve var uv = new UV(domain.Min.U, domain.Min.V + vSpan / count * (double)i); var uv1 = new UV(domain.Max.U, domain.Min.V + vSpan / count * (double)i); uvPts.Add(uv); uvPts.Add(uv1); XYZ facePt = face.Evaluate(uv); IntersectionResult ir = curve.Project(facePt); double curveParam = curve.ComputeNormalizedParameter(ir.Parameter); if (curveParam < 0) { curveParam = 0; } if (curveParam > 1) { curveParam = 1; } var valueIndex = (int)Math.Floor(curveParam * (double)nvals.Count()); if (valueIndex >= nvals.Count()) { valueIndex = nvals.Count() - 1; } //create list of values at this point - currently supporting only one //var doubleList = new List<double> { nvals.ElementAt(i) }; var doubleList = new List <double> { nvals.ElementAt(valueIndex) }; //add value at point object containing the value list valList.Add(new ValueAtPoint(doubleList)); valList.Add(new ValueAtPoint(doubleList)); } var pnts = new FieldDomainPointsByUV(uvPts); var vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive( idx, pnts, vals, schemaId); idxs.Add(idx); } return(Value.NewNumber(idx)); }
/// <summary> /// Paint solid by AVF /// </summary> /// <param name="solid">Solid to be painted</param> /// <param name="view">The view that shows solid</param> private void PaintSolid(Solid solid, View view) { String viewName = view.Name; SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); if (m_schemaId != -1) { IList<int> results = sfm.GetRegisteredResults(); if (!results.Contains(m_schemaId)) { m_schemaId = -1; } } // set up the display style if (m_schemaId == -1) { AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("PaintedSolid " + viewName, "Description"); AnalysisDisplayStyle displayStyle = AnalysisDisplayStyle.CreateAnalysisDisplayStyle(this.RevitDoc, "Real_Color_Surface" + viewName, new AnalysisDisplayColoredSurfaceSettings(), new AnalysisDisplayColorSettings(), new AnalysisDisplayLegendSettings()); resultSchema1.AnalysisDisplayStyleId = displayStyle.Id; m_schemaId = sfm.RegisterResult(resultSchema1); } // get points of all faces in the solid FaceArray faces = solid.Faces; Transform trf = Transform.Identity; foreach (Face face in faces) { int idx = sfm.AddSpatialFieldPrimitive(face, trf); IList<UV> uvPts = null; IList<ValueAtPoint> valList = null; ComputeValueAtPointForFace(face, out uvPts, out valList, 1); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, m_schemaId); } }
public override Value Evaluate(FSharpList<Value> args) { this.ClearPreviousResults(); //unwrap the values IEnumerable<double> nvals = ((Value.List)args[0]).Item.Select(q => (double)((Value.Number)q).Item); var curve = (Curve)((Value.Container)args[1]).Item; SpatialFieldManager = (Autodesk.Revit.DB.Analysis.SpatialFieldManager)((Value.Container)args[2]).Item; if (!SpatialFieldManager.IsResultSchemaNameUnique(DYNAMO_TEMP_CURVES_SCHEMA, -1)) { IList<int> arses = SpatialFieldManager.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = SpatialFieldManager.GetResultSchema(i); if (arsTest.Name == DYNAMO_TEMP_CURVES_SCHEMA) { schemaId = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_TEMP_CURVES_SCHEMA, "Temporary curves from Dynamo."); schemaId = SpatialFieldManager.RegisterResult(ars); } Transform trf = Transform.Identity; //http://thebuildingcoder.typepad.com/blog/2012/09/sphere-creation-for-avf-and-filtering.html#3 var create = dynRevitSettings.Doc.Application.Application.Create; Transform t = curve.ComputeDerivatives(0, true); XYZ x = t.BasisX.Normalize(); XYZ y = t.BasisX.IsAlmostEqualTo(XYZ.BasisZ) ? t.BasisX.CrossProduct(XYZ.BasisY).Normalize() : t.BasisX.CrossProduct(XYZ.BasisZ).Normalize(); XYZ z = x.CrossProduct(y); Autodesk.Revit.DB.Ellipse arc1 = dynRevitSettings.Revit.Application.Create.NewEllipse(t.Origin, .1, .1, y,z,-Math.PI, 0); Autodesk.Revit.DB.Ellipse arc2 = dynRevitSettings.Revit.Application.Create.NewEllipse(t.Origin, .1, .1, y, z, 0, Math.PI); var pathLoop = new Autodesk.Revit.DB.CurveLoop(); pathLoop.Append(curve); var profileLoop = new Autodesk.Revit.DB.CurveLoop(); profileLoop.Append(arc1); profileLoop.Append(arc2); double curveDomain = curve.get_EndParameter(1) - curve.get_EndParameter(0); int idx = -1; var s = GeometryCreationUtilities.CreateSweptGeometry(pathLoop, 0, 0, new List<Autodesk.Revit.DB.CurveLoop>{profileLoop}); foreach (Face face in s.Faces) { //divide the V domain by the number of incoming BoundingBoxUV domain = face.GetBoundingBox(); double vSpan = domain.Max.V - domain.Min.V; //analysis values idx = SpatialFieldManager.AddSpatialFieldPrimitive(face, trf); //a list to hold the analysis points IList<UV> uvPts = new List<UV>(); //a list to hold the analysis values IList<ValueAtPoint> valList = new List<ValueAtPoint>(); //int count = nvals.Count(); //this is creating a lot of sample points, but if we used less //sampling points, AVF would draw the two surfaces as if there was a hard //edge between them. this provides a better blend. int count = 10; for (int i = 0; i < count; i ++) { //get a UV point on the face //find its XYZ location and project to //the underlying curve. find the value which corresponds //to the location on the curve var uv = new UV(domain.Min.U, domain.Min.V + vSpan / count*(double) i); var uv1 = new UV(domain.Max.U, domain.Min.V + vSpan / count * (double)i); uvPts.Add(uv); uvPts.Add(uv1); XYZ facePt = face.Evaluate(uv); IntersectionResult ir = curve.Project(facePt); double curveParam = curve.ComputeNormalizedParameter(ir.Parameter); if (curveParam < 0) curveParam = 0; if (curveParam > 1) curveParam = 1; var valueIndex = (int)Math.Floor(curveParam * (double)nvals.Count()); if (valueIndex >= nvals.Count()) valueIndex = nvals.Count() - 1; //create list of values at this point - currently supporting only one //var doubleList = new List<double> { nvals.ElementAt(i) }; var doubleList = new List<double> { nvals.ElementAt(valueIndex) }; //add value at point object containing the value list valList.Add(new ValueAtPoint(doubleList)); valList.Add(new ValueAtPoint(doubleList)); } var pnts = new FieldDomainPointsByUV(uvPts); var vals = new FieldValues(valList); SpatialFieldManager.UpdateSpatialFieldPrimitive( idx, pnts, vals, schemaId); PastResultIds.Add(idx); } return Value.NewNumber(idx); }
/// <summary> /// Create Visualization framework for view /// </summary> /// <param name="uvPts"></param> /// <param name="valList"></param> /// <param name="calcFace"></param> /// <param name="faceTransform"></param> private void DoVisualization(IList<UV> uvPts, IList<ValueAtPoint> valList, Face calcFace, Transform faceTransform) { // Visualization framework FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); AnalysisResultSchema resultSchema = new AnalysisResultSchema("Point by Point", "Illumination Point-by-Point"); // Units IList<string> names = new List<string> { "FC" }; IList<double> multipliers = new List<double> { 1 }; resultSchema.SetUnits(names, multipliers); // Add field primative to view int idx = m_sfm.AddSpatialFieldPrimitive(calcFace, faceTransform); int resultIndex = m_sfm.RegisterResult(resultSchema); // Update Field Primatives m_sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, resultIndex); }
public override Value Evaluate(FSharpList<Value> args) { this.ClearPreviousResults(); //unwrap the values IEnumerable<XYZ> nvals = ((Value.List)args[0]).Item.Select( x => (XYZ)((Value.Container)x).Item ); //unwrap the sample locations IEnumerable<XYZ> pts = ((Value.List)args[1]).Item.Select( x => (XYZ)((Value.Container)x).Item ); SpatialFieldManager = ((Value.Container)args[2]).Item as Autodesk.Revit.DB.Analysis.SpatialFieldManager; int idx = SpatialFieldManager.AddSpatialFieldPrimitive(); var samplePts = new FieldDomainPointsByXYZ(pts.ToList<XYZ>()); //for every sample location add a list //of valueatpoint objects. for now, we only //support one value per point IList<VectorAtPoint> valList = nvals.Select(n => new VectorAtPoint(new List<XYZ> { n })).ToList(); var sampleValues = new FieldValues(valList); int schemaIndex = 0; if (!SpatialFieldManager.IsResultSchemaNameUnique(DYNAMO_ANALYSIS_RESULTS_NAME, -1)) { IList<int> arses = SpatialFieldManager.GetRegisteredResults(); foreach (int i in arses) { AnalysisResultSchema arsTest = SpatialFieldManager.GetResultSchema(i); if (arsTest.Name == DYNAMO_ANALYSIS_RESULTS_NAME) { schemaIndex = i; break; } } } else { var ars = new AnalysisResultSchema(DYNAMO_ANALYSIS_RESULTS_NAME, "Resulting analyses from Dynamo."); schemaIndex = SpatialFieldManager.RegisterResult(ars); } SpatialFieldManager.UpdateSpatialFieldPrimitive(idx, samplePts, sampleValues, schemaIndex); PastResultIds.Add(idx); return Value.NewContainer(idx); }
/// <summary> /// Paint a solid in a new named view /// </summary> /// <param name="s">solid</param> /// <param name="viewName">Given the name of view</param> public void PaintSolid(Solid s, String viewName) { View view; if (!viewNameList.Contains(viewName)) { view = m_doc.Create.NewView3D(new XYZ(1, 1, 1)); view.Name = viewName; viewNameList.Add(viewName); } else { view = (((new FilteredElementCollector(m_doc). OfClass(typeof(View))).Cast<View>()). Where(e => e.Name == viewName)).First<View>(); } SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); if (SchemaId != -1) { IList<int> results = sfm.GetRegisteredResults(); if (!results.Contains(SchemaId)) { SchemaId = -1; } } if (SchemaId == -1) { AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("PaintedSolid" + viewName, "Description"); AnalysisDisplayStyle displayStyle = AnalysisDisplayStyle.CreateAnalysisDisplayStyle( m_doc, "Real_Color_Surface" + viewName, new AnalysisDisplayColoredSurfaceSettings(), new AnalysisDisplayColorSettings(), new AnalysisDisplayLegendSettings()); resultSchema1.AnalysisDisplayStyleId = displayStyle.Id; SchemaId = sfm.RegisterResult(resultSchema1); } FaceArray faces = s.Faces; Transform trf = Transform.Identity; foreach (Face face in faces) { int idx = sfm.AddSpatialFieldPrimitive(face, trf); IList<UV> uvPts = null; IList<ValueAtPoint> valList = null; ComputeValueAtPointForFace(face, out uvPts, out valList, 1); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, SchemaId); } }
/// <summary> /// Paint a solid in a new named view /// </summary> /// <param name="s">solid</param> /// <param name="viewName">Given the name of view</param> public void PaintSolid(Solid s, String viewName) { View view; if (!viewNameList.Contains(viewName)) { view = m_doc.Create.NewView3D(new XYZ(1, 1, 1)); view.Name = viewName; viewNameList.Add(viewName); } else { view = (((new FilteredElementCollector(m_doc). OfClass(typeof(View))).Cast <View>()). Where(e => e.Name == viewName)).First <View>(); } SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (sfm == null) { sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); } if (SchemaId != -1) { IList <int> results = sfm.GetRegisteredResults(); if (!results.Contains(SchemaId)) { SchemaId = -1; } } if (SchemaId == -1) { AnalysisResultSchema resultSchema1 = new AnalysisResultSchema("PaintedSolid" + viewName, "Description"); AnalysisDisplayStyle displayStyle = AnalysisDisplayStyle.CreateAnalysisDisplayStyle( m_doc, "Real_Color_Surface" + viewName, new AnalysisDisplayColoredSurfaceSettings(), new AnalysisDisplayColorSettings(), new AnalysisDisplayLegendSettings()); resultSchema1.AnalysisDisplayStyleId = displayStyle.Id; SchemaId = sfm.RegisterResult(resultSchema1); } FaceArray faces = s.Faces; Transform trf = Transform.Identity; foreach (Face face in faces) { int idx = sfm.AddSpatialFieldPrimitive(face, trf); IList <UV> uvPts = null; IList <ValueAtPoint> valList = null; ComputeValueAtPointForFace(face, out uvPts, out valList, 1); FieldDomainPointsByUV pnts = new FieldDomainPointsByUV(uvPts); FieldValues vals = new FieldValues(valList); sfm.UpdateSpatialFieldPrimitive(idx, pnts, vals, SchemaId); } }
public bool VisualizeData() { bool result = false; try { string viewIdValue = RegistryKeyManager.GetRegistryKeyValue("RevitOutgoingViewId"); ElementId viewId = new ElementId(int.Parse(viewIdValue)); Autodesk.Revit.DB.View view = m_doc.GetElement(viewId) as Autodesk.Revit.DB.View; if (null != view) { SpatialFieldManager sfm = SpatialFieldManager.GetSpatialFieldManager(view); if (null == sfm) { sfm = SpatialFieldManager.CreateSpatialFieldManager(view, 1); } AnalysisResultSchema resultSchema = new AnalysisResultSchema(analysisType.ToString(), "Imported from DIVA"); int resultIndex = -1; //check order DataContainer tempContainer = dataDictionary[0]; XYZ node = new XYZ(tempContainer.Node.XValue, tempContainer.Node.YValue, tempContainer.Node.ZValue); IntersectionResult intersection = displayingFaces[0].Project(node); if (null == intersection) { displayingFaces.Reverse(); } //reverse the order of faces foreach (int keyIndex in dataDictionary.Keys) { DataContainer container = dataDictionary[keyIndex]; Face face = displayingFaces[keyIndex]; List <double> dblList = new List <double>(); dblList.Add(container.ResultValue); XYZ vectorZ = new XYZ(0, 0, -1); Transform transform = Transform.CreateTranslation(vectorZ); int index = sfm.AddSpatialFieldPrimitive(face, transform); IList <UV> uvPts = new List <UV>(); IList <ValueAtPoint> valList = new List <ValueAtPoint>(); XYZ nodePoint = new XYZ(container.Node.XValue, container.Node.YValue, container.Node.ZValue); IntersectionResult intersect = face.Project(nodePoint); if (null != intersect) { UV nodeUV = intersect.UVPoint; uvPts.Add(nodeUV); valList.Add(new ValueAtPoint(dblList)); FieldDomainPointsByUV domainPoints = new FieldDomainPointsByUV(uvPts); FieldValues values = new FieldValues(valList); FieldValues vals = new FieldValues(valList); if (resultIndex == -1) { resultIndex = sfm.RegisterResult(resultSchema); } else { sfm.SetResultSchema(resultIndex, resultSchema); } sfm.UpdateSpatialFieldPrimitive(index, domainPoints, values, resultIndex); } result = true; } } } catch (Exception ex) { MessageBox.Show("Failed to visualize the result data.\n" + ex.Message, "Analysis Data Manager - Visualize Data", MessageBoxButtons.OK, MessageBoxIcon.Warning); result = false; } return(result); }