public static object sBeamSetByCurves(string beamSetName, List <Dyn.Curve> beamSetCurves, List <sCrossSection> crossSections) { List <sFrameSet> sets = new List <sFrameSet>(); //how to get Revit Unit?... sDynamoConverter dycon = new sDynamoConverter("Feet", "Meters"); for (int i = 0; i < beamSetCurves.Count; ++i) { double len = beamSetCurves[i].Length; if (len > 0.005) { Dyn.Curve dc = dycon.EnsureUnit(beamSetCurves[i]) as Dyn.Curve; sCurve setCrv = dycon.TosCurve(Dyn.PolyCurve.ByJoinedCurves(new Dyn.Curve[] { dc })); sFrameSet bset = new sFrameSet(setCrv); bset.frameSetName = beamSetName; bset.setId = i; if (crossSections.Count == 1) { bset.crossSection = crossSections[0] as sCrossSection; } else if (crossSections.Count == beamSetCurves.Count) { bset.crossSection = crossSections[i] as sCrossSection; } sets.Add(bset); dc.Dispose(); } } //for(int i = 0; i < beamSetCurves.Count; ++i) //{ // beamSetCurves[i].Dispose(); //} return(new Dictionary <string, object> { { "sBeamSets", sets } }); }
/// <summary> /// Create a Revit Floor given it's curve outline and Level /// </summary> /// <param name="outline">The outline.</param> /// <param name="floorType">Type of the floor.</param> /// <param name="level">The level.</param> /// <param name="structural">if set to <c>true</c> [structural].</param> /// <returns> /// The floor /// </returns> public static SlopedFloor ByOutlineTypeAndLevel(Autodesk.DesignScript.Geometry.PolyCurve outline, Revit.Elements.FloorType floorType, Revit.Elements.Level level, bool structural) { Utils.Log(string.Format("SlopedFloor.ByOutlineTypeAndLevel started...", "")); try { var profile = new CurveArray(); Autodesk.DesignScript.Geometry.Plane plane = Autodesk.DesignScript.Geometry.Plane.ByBestFitThroughPoints( outline.Curves().Cast <Autodesk.DesignScript.Geometry.Curve>().Select(x => x.StartPoint)); Vector normal = plane.Normal; if (normal.Dot(Vector.ZAxis()) <= 0) { normal = normal.Reverse(); } Autodesk.DesignScript.Geometry.Point origin = plane.Origin; Autodesk.DesignScript.Geometry.Point end = origin.Add(normal); Autodesk.DesignScript.Geometry.Point projection = Autodesk.DesignScript.Geometry.Point.ByCoordinates(end.X, end.Y, -1000); end = Autodesk.DesignScript.Geometry.Point.ByCoordinates(end.X, end.Y, end.Z + 1000); Autodesk.DesignScript.Geometry.Point intersection = null; var result = plane.Intersect(Autodesk.DesignScript.Geometry .Line.ByStartPointEndPoint(end, projection)); if (result.Length > 0) { intersection = result[0] as Autodesk.DesignScript.Geometry.Point; } else { var message = "Couldn't find intersection"; Utils.Log(string.Format("ERROR: SlopedFloor.ByOutlineTypeAndLevel {0}", message)); throw new Exception(message); } Autodesk.DesignScript.Geometry.Curve temp = Autodesk.DesignScript.Geometry.Line.ByBestFitThroughPoints(new Autodesk.DesignScript.Geometry.Point[] { origin, intersection }); PolyCurve flat = PolyCurve.ByJoinedCurves(outline.PullOntoPlane(Autodesk.DesignScript.Geometry.Plane.XY() .Offset(temp.StartPoint.Z)).Explode().Cast <Autodesk.DesignScript.Geometry.Curve>().ToList()); Autodesk.DesignScript.Geometry.Curve flatLine = temp.PullOntoPlane(Autodesk.DesignScript.Geometry.Plane.XY().Offset(temp.StartPoint.Z)); if (Math.Abs(Math.Abs(plane.Normal.Dot(Vector.ZAxis())) - 1) < 0.00001) { var f = Revit.Elements.Floor.ByOutlineTypeAndLevel(flat, floorType, level); f.InternalElement.Parameters.Cast <Autodesk.Revit.DB.Parameter>() .First(x => x.Id.IntegerValue.Equals(Autodesk.Revit.DB.BuiltInParameter.FLOOR_PARAM_IS_STRUCTURAL)) .Set(structural ? 1 : 0); plane.Dispose(); flatLine.Dispose(); flat.Dispose(); origin.Dispose(); end.Dispose(); projection.Dispose(); intersection.Dispose(); temp.Dispose(); return(new SlopedFloor(f.InternalElement as Autodesk.Revit.DB.Floor)); } double slope = (temp.EndPoint.Z - temp.StartPoint.Z) / flatLine.Length; foreach (Autodesk.DesignScript.Geometry.Curve c in flat.Curves()) { profile.Append(c.ToRevitType()); } Autodesk.Revit.DB.Line slopeArrow = flatLine.ToRevitType() as Autodesk.Revit.DB.Line; var ft = floorType.InternalElement as Autodesk.Revit.DB.FloorType; var lvl = level.InternalElement as Autodesk.Revit.DB.Level; var floor = new SlopedFloor(profile, slopeArrow, slope, ft, lvl, structural); floor.Level = level; floor.Floortype = floorType; floor.Structural = structural; //DocumentManager.Regenerate(); plane.Dispose(); flatLine.Dispose(); flat.Dispose(); origin.Dispose(); end.Dispose(); projection.Dispose(); intersection.Dispose(); temp.Dispose(); Utils.Log(string.Format("SlopedFloor.ByOutlineTypeAndLevel completed.", "")); return(floor); } catch (Exception ex) { Utils.Log(string.Format("ERROR: SlopedFloor.ByOutlineTypeAndLevel {0}", ex.Message)); throw ex; } }
public static Dictionary <string, object> ByPolyCurve(Revit.Elements.Element pipeType, Revit.Elements.Element pipingSystemType, PolyCurve polyCurve, Revit.Elements.Level level, double maxLength, Featureline featureline) { Utils.Log(string.Format("Pipe.ByPolyCurve started...", "")); var totalTransform = RevitUtils.DocumentTotalTransform(); var totalTransformInverse = totalTransform.Inverse(); if (!SessionVariables.ParametersCreated) { UtilsObjectsLocation.CheckParameters(DocumentManager.Instance.CurrentDBDocument); } var oType = pipeType.InternalElement as Autodesk.Revit.DB.Plumbing.PipeType; var oSystemType = pipingSystemType.InternalElement as Autodesk.Revit.DB.Plumbing.PipingSystemType; var l = level.InternalElement as Autodesk.Revit.DB.Level; double length = polyCurve.Length; int subdivisions = Convert.ToInt32(Math.Ceiling(length / maxLength)); IList <Autodesk.DesignScript.Geometry.Point> points = new List <Autodesk.DesignScript.Geometry.Point>(); points.Add(polyCurve.StartPoint); foreach (Autodesk.DesignScript.Geometry.Point p in polyCurve.PointsAtEqualChordLength(subdivisions)) { points.Add(p); } points.Add(polyCurve.EndPoint); points = Autodesk.DesignScript.Geometry.Point.PruneDuplicates(points); IList <ElementId> ids = new List <ElementId>(); TransactionManager.Instance.EnsureInTransaction(DocumentManager.Instance.CurrentDBDocument); Autodesk.DesignScript.Geometry.Point start = null; Autodesk.DesignScript.Geometry.Point end = null; Autodesk.DesignScript.Geometry.Point sp = null; Autodesk.DesignScript.Geometry.Point ep = null; Autodesk.DesignScript.Geometry.Curve curve = null; for (int i = 0; i < points.Count - 1; ++i) { start = points[i].Transform(totalTransform) as Autodesk.DesignScript.Geometry.Point; var s = start.ToXyz(); end = points[i + 1].Transform(totalTransform) as Autodesk.DesignScript.Geometry.Point; var e = end.ToXyz(); Autodesk.Revit.DB.Plumbing.Pipe p = Autodesk.Revit.DB.Plumbing.Pipe.CreatePlaceholder(DocumentManager.Instance.CurrentDBDocument, oSystemType.Id, oType.Id, l.Id, s, e); ids.Add(p.Id); } var pipeIds = Autodesk.Revit.DB.Plumbing.PlumbingUtils.ConvertPipePlaceholders(DocumentManager.Instance.CurrentDBDocument, ids); TransactionManager.Instance.TransactionTaskDone(); DocumentManager.Instance.CurrentDBDocument.Regenerate(); Pipe[] pipes = GetPipesByIds(pipeIds); foreach (Pipe pipe in pipes) { curve = pipe.Location.Transform(totalTransformInverse) as Autodesk.DesignScript.Geometry.Curve; sp = curve.StartPoint; ep = curve.EndPoint; pipe.SetParameterByName(ADSK_Parameters.Instance.Corridor.Name, featureline.Baseline.CorridorName); pipe.SetParameterByName(ADSK_Parameters.Instance.BaselineIndex.Name, featureline.Baseline.Index); pipe.SetParameterByName(ADSK_Parameters.Instance.Code.Name, featureline.Code); pipe.SetParameterByName(ADSK_Parameters.Instance.Side.Name, featureline.Side.ToString()); pipe.SetParameterByName(ADSK_Parameters.Instance.X.Name, Math.Round(sp.X, 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Y.Name, Math.Round(sp.Y, 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Z.Name, Math.Round(sp.Z, 3)); var soe = featureline.GetStationOffsetElevationByPoint(sp); pipe.SetParameterByName(ADSK_Parameters.Instance.Station.Name, Math.Round((double)soe["Station"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Offset.Name, Math.Round((double)soe["Offset"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Elevation.Name, Math.Round((double)soe["Elevation"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Update.Name, 1); pipe.SetParameterByName(ADSK_Parameters.Instance.Delete.Name, 0); soe = featureline.GetStationOffsetElevationByPoint(ep); pipe.SetParameterByName(ADSK_Parameters.Instance.EndStation.Name, Math.Round((double)soe["Station"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.EndOffset.Name, Math.Round((double)soe["Offset"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.EndElevation.Name, Math.Round((double)soe["Elevation"], 3)); } IList <Fitting> fittings = new List <Fitting>(); for (int i = 0; i < pipes.Length - 1; ++i) { Fitting fitting = null; try { fitting = Fitting.Elbow(pipes[i], pipes[i + 1]); } catch { } fittings.Add(fitting); } if (start != null) { start.Dispose(); } if (end != null) { end.Dispose(); } if (sp != null) { sp.Dispose(); } if (ep != null) { ep.Dispose(); } if (curve != null) { curve.Dispose(); } foreach (var item in points) { if (item != null) { item.Dispose(); } } points.Clear(); Utils.Log(string.Format("Pipe.ByPolyCurve completed.", "")); return(new Dictionary <string, object>() { { "Pipes", pipes }, { "Fittings", fittings } }); }
public static Dictionary <string, object> ByPolyCurve(Revit.Elements.Element conduitType, Autodesk.DesignScript.Geometry.PolyCurve polyCurve, double maxLength, Featureline featureline) { Utils.Log(string.Format("Conduit.ByPolyCurve started...", "")); if (!SessionVariables.ParametersCreated) { UtilsObjectsLocation.CheckParameters(DocumentManager.Instance.CurrentDBDocument); } var totalTransform = RevitUtils.DocumentTotalTransform(); var oType = conduitType.InternalElement as Autodesk.Revit.DB.Electrical.ConduitType; IList <Conduit> output = new List <Conduit>(); IList <Fitting> fittings = new List <Fitting>(); double length = polyCurve.Length; int subdivisions = Convert.ToInt32(Math.Ceiling(length / maxLength)); IList <Autodesk.DesignScript.Geometry.Point> points = new List <Autodesk.DesignScript.Geometry.Point>(); points.Add(polyCurve.StartPoint); foreach (Autodesk.DesignScript.Geometry.Point p in polyCurve.PointsAtEqualChordLength(subdivisions)) { points.Add(p); } points.Add(polyCurve.EndPoint); points = Autodesk.DesignScript.Geometry.Point.PruneDuplicates(points); Autodesk.DesignScript.Geometry.Point start = null; Autodesk.DesignScript.Geometry.Point end = null; Autodesk.DesignScript.Geometry.Point sp = null; Autodesk.DesignScript.Geometry.Point ep = null; Autodesk.DesignScript.Geometry.Curve curve = null; for (int i = 0; i < points.Count - 1; ++i) { start = points[i]; end = points[i + 1]; curve = Autodesk.DesignScript.Geometry.Line.ByStartPointEndPoint(start, end); sp = start.Transform(totalTransform) as Autodesk.DesignScript.Geometry.Point; ep = end.Transform(totalTransform) as Autodesk.DesignScript.Geometry.Point; var pipe = new Conduit(oType, sp.ToXyz(), ep.ToXyz()); pipe.SetParameterByName(ADSK_Parameters.Instance.Corridor.Name, featureline.Baseline.CorridorName); pipe.SetParameterByName(ADSK_Parameters.Instance.BaselineIndex.Name, featureline.Baseline.Index); pipe.SetParameterByName(ADSK_Parameters.Instance.Code.Name, featureline.Code); pipe.SetParameterByName(ADSK_Parameters.Instance.Side.Name, featureline.Side.ToString()); pipe.SetParameterByName(ADSK_Parameters.Instance.X.Name, Math.Round(start.X, 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Y.Name, Math.Round(start.Y, 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Z.Name, Math.Round(start.Z, 3)); var soe = featureline.GetStationOffsetElevationByPoint(start); pipe.SetParameterByName(ADSK_Parameters.Instance.Station.Name, Math.Round((double)soe["Station"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Offset.Name, Math.Round((double)soe["Offset"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Elevation.Name, Math.Round((double)soe["Elevation"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.Update.Name, 1); pipe.SetParameterByName(ADSK_Parameters.Instance.Delete.Name, 0); soe = featureline.GetStationOffsetElevationByPoint(end); pipe.SetParameterByName(ADSK_Parameters.Instance.EndStation.Name, Math.Round((double)soe["Station"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.EndOffset.Name, Math.Round((double)soe["Offset"], 3)); pipe.SetParameterByName(ADSK_Parameters.Instance.EndElevation.Name, Math.Round((double)soe["Elevation"], 3)); output.Add(pipe); if (start != null) { start.Dispose(); } if (end != null) { end.Dispose(); } if (sp != null) { sp.Dispose(); } if (ep != null) { ep.Dispose(); } if (curve != null) { curve.Dispose(); } } for (int i = 0; i < output.Count - 1; ++i) { Fitting fitting = null; try { fitting = Fitting.Elbow(output[i], output[i + 1]); } catch { } fittings.Add(fitting); } foreach (var pt in points) { if (pt != null) { pt.Dispose(); } } points.Clear(); Utils.Log(string.Format("Conduit.ByPolyCurve completed.", "")); return(new Dictionary <string, object>() { { "Conduit", output }, { "Fittings", fittings } }); }