public IDisplayData AsDisplayData(ViewPlane viewplane) { try { displayData = new DisplayData(FileName); displayData.Color = Color; foreach (PointCyl v in this) { switch (viewplane) { case ViewPlane.ZR: displayData.Add(new PointF((float)v.Z, (float)v.R)); break; case ViewPlane.THETAR: default: displayData.Add(new PointF((float)(v.ThetaDeg), (float)v.R)); break; } } displayData.SortByX(); return(displayData); } catch (Exception) { throw; } }
public DisplayData AsDisplayData(ViewPlane viewplane) { var pts = new DisplayData(FileName); pts.Color = Color; foreach (PointCyl v in this) { switch (viewplane) { case ViewPlane.ZR: pts.Add(new PointF((float)v.Z, (float)v.R)); break; case ViewPlane.THETAR: default: pts.Add(new PointF((float)v.ThetaDeg, (float)v.R)); break; } } return(pts); }
public DisplayData AsDisplayData(ViewPlane viewPlane) { try { var pts = new DisplayData(FileName); pts.Color = Color; foreach (Vector3 v in this) { switch (viewPlane) { case ViewPlane.THETAR: var ptc = new PointCyl(v); pts.Add(new PointF((float)ptc.ThetaDeg, (float)ptc.R)); break; case ViewPlane.XZ: pts.Add(new PointF((float)v.X, (float)v.Z)); break; case ViewPlane.YZ: pts.Add(new PointF((float)v.Y, (float)v.Z)); break; case ViewPlane.XY: default: pts.Add(new PointF((float)v.X, (float)v.Y)); break; } } return(pts); } catch (Exception) { throw; } }
public IDisplayData AsDisplayData(double segmentLength) { try { var pointList = AsPointList(segmentLength); var dd = new DisplayData(); foreach (var pt in pointList) { dd.Add(new System.Drawing.PointF((float)pt.X, (float)pt.Y)); } return(dd); } catch (Exception) { throw; } }
public IDisplayData AsPolarViewDisplayData() { try { displayData = new DisplayData(FileName); displayData.Color = Color; foreach (IPointCyl v in this) { displayData.Add(new PointF((float)(Math.Cos(v.ThetaRad) * v.R), (float)(Math.Sin(v.ThetaRad) * v.R))); } return(displayData); } catch (Exception) { throw; } }
public DisplayData CenterToXMidpoint() { int midCount = (int)Math.Round(data.Count / 2.0); var minMax = GetMinMaxY(); var midYData = (minMax.Item1 + minMax.Item2) / 2.0; double x1 = 0; for (int i = 1; i < midCount; i++) { if ((data[i - 1].Y <midYData && data[i].Y> midYData) || (data[i - 1].Y > midYData && data[i].Y < midYData)) { x1 = (data[i - 1].X + data[i].X) / 2.0; break; } } double x2 = 0; for (int i = midCount; i < data.Count; i++) { if ((data[i - 1].Y <midYData && data[i].Y> midYData) || (data[i - 1].Y > midYData && data[i].Y < midYData)) { x2 = (data[i - 1].X + data[i].X) / 2.0; break; } } double midX = (x1 + x2) / 2.0; var transData = new DisplayData(FileName); foreach (var pt in data) { transData.Add(new System.Drawing.PointF((float)(pt.X - midX), pt.Y)); } return(transData); }
public DisplayData AsDisplayData(ViewPlane viewplane, TolType tolType) { var displayData = new DisplayData(FileName); switch (tolType) { case TolType.MAX: displayData.Color = Color.Red; break; case TolType.MIN: displayData.Color = Color.Blue; break; case TolType.NOM: displayData.Color = Color.Green; break; } displayData.Color = Color; foreach (var v in this) { switch (viewplane) { case ViewPlane.ZR: switch (tolType) { case TolType.MAX: displayData.Add(new PointF((float)v.Z, (float)v.RMax)); break; case TolType.MIN: displayData.Add(new PointF((float)v.Z, (float)v.RMin)); break; case TolType.NOM: displayData.Add(new PointF((float)v.Z, (float)v.RNom)); break; } break; case ViewPlane.THETAR: default: switch (tolType) { case TolType.MAX: displayData.Add(new PointF((float)(v.ThetaDeg), (float)v.RMax)); break; case TolType.MIN: displayData.Add(new PointF((float)(v.ThetaDeg), (float)v.RMin)); break; case TolType.NOM: displayData.Add(new PointF((float)(v.ThetaDeg), (float)v.RNom)); break; } break; } } return(displayData); }