internal IList <XYZ> GetEavePointsOnOverhang(XYZ currentPointOnRidge) { IList <XYZ> ProjectedPoints = new List <XYZ>(); //XYZ currentPointOnRidge = Curve.Evaluate(Curve.GetEndParameter(0) + distanceAlongRidge, false); foreach (XYZ currentPointOnEave in ProjectRidgePointOnEaves(currentPointOnRidge)) { ModelCurveArrArray sketchModels = CurrentRoof.GetProfiles(); double minDist = double.MaxValue; ModelCurve targetEave = null; XYZ projectedPoint = null; double currentRoofTotalHeight = GetCurrentRoofHeight(); foreach (ModelCurveArray currentCurveArr in sketchModels) { foreach (ModelCurve currentCurve in currentCurveArr) { Curve targetGeoCurve = currentCurve.GeometryCurve; Line targetGeoLine = targetGeoCurve as Line; if (targetGeoLine == null) { throw new Exception("Eave is not a straight line"); } targetGeoLine = targetGeoLine.Flatten(currentRoofTotalHeight); double currentDist = targetGeoLine.Project(currentPointOnEave).Distance; if (currentDist < minDist) { minDist = currentDist; targetEave = currentCurve; projectedPoint = targetGeoLine.Project(currentPointOnEave).XYZPoint; } } } double overHang = 0; try { overHang = CurrentRoof.get_Overhang(targetEave); } catch { } currentPointOnRidge = new XYZ(currentPointOnRidge.X, currentPointOnRidge.Y, currentRoofTotalHeight); Line l = Line.CreateBound(projectedPoint, currentPointOnRidge); ProjectedPoints.Add(currentPointOnEave.Add(l.Direction.Multiply(overHang))); } return(ProjectedPoints); }
internal XYZ GetTrussTopPoint(XYZ currentPointOnRidge) { if (RoofLineType == RoofLineType.Ridge) { return(currentPointOnRidge); } //If the is not a Ridge this MUST be a SinglePanelRidge if (RoofLineType == RoofLineType.RidgeSinglePanel) { return(currentPointOnRidge); } Line currentRidgeLine = Curve.Clone() as Line; if (currentRidgeLine == null) { throw new Exception("The ridge is not a straight line!"); } ModelCurveArrArray sketchModels = CurrentRoof.GetProfiles(); double minDist = double.MaxValue; ModelCurve targetEave = null; XYZ projectedPoint = null; double currentRoofTotalHeight = GetCurrentRoofHeight(); foreach (ModelCurveArray currentCurveArr in sketchModels) { foreach (ModelCurve currentCurve in currentCurveArr) { Curve targetGeoCurve = currentCurve.GeometryCurve; Line targetGeoLine = targetGeoCurve as Line; if (targetGeoLine == null) { throw new Exception("Eave is not a straight line"); } targetGeoLine = targetGeoLine.Flatten(currentRoofTotalHeight); double currentDist = targetGeoLine.Project(currentPointOnRidge).Distance; if (currentDist < minDist) { minDist = currentDist; targetEave = currentCurve; projectedPoint = targetGeoLine.Project(currentPointOnRidge).XYZPoint; } } } double overHang = 0; try { overHang = CurrentRoof.get_Overhang(targetEave); } catch { } XYZ ridgePointFlatten = new XYZ(currentPointOnRidge.X, currentPointOnRidge.Y, currentRoofTotalHeight); //We just need to get the side that the eave is to move the point to that direction //so we dont need to get a specific eave, lets just project the first one with infinite bounds to get the direction if (RelatedRidgeEaves == null || RelatedRidgeEaves.Count == 0) { RelatedRidgeEaves = GetRelatedEaves(); } if (RelatedRidgeEaves == null || RelatedRidgeEaves.Count == 0) { throw new Exception("Related eave or eaves to current singleRidge was not found"); } Curve eaveCurve = RelatedRidgeEaves[0].AsCurve(); if (eaveCurve as Line == null) { throw new Exception("Related eave is not a straight line!"); } Line eaveLine = eaveCurve as Line; XYZ lineIntersectionPoint = GeometrySupport.GetRoofIntersectionFlattenLines(currentRidgeLine, ridgePointFlatten, eaveLine, currentRoofTotalHeight); if (lineIntersectionPoint == null) { throw new Exception("No Intersection between eave could be estabilished!"); } XYZ overHangdirection = Line.CreateBound(projectedPoint, lineIntersectionPoint).Direction.Normalize(); XYZ pointOnOverhang = projectedPoint.Add(overHangdirection.Multiply(overHang)); //We will get the point on the overhang because if we are working with a single panel ridge it may have overhangs XYZ pointOnSupport = GetSupportPoint(pointOnOverhang, currentRidgeLine.Direction.Normalize()); //Now we will shoot the point up on the Roof XYZ startingPoint = new XYZ(pointOnSupport.X, pointOnSupport.Y, pointOnSupport.Z - 1); ReferenceIntersector currentRefIntersect = new ReferenceIntersector(CurrentRoof.Id, FindReferenceTarget.Element, CurrentRoof.Document.ActiveView as View3D); ReferenceWithContext currenRefContext = currentRefIntersect.FindNearest(startingPoint, XYZ.BasisZ); if (currenRefContext == null) { return(null); } XYZ projectedPointOnRoof = currenRefContext.GetReference().GlobalPoint; return(projectedPointOnRoof); }