public static void drawText_section(Rectangle3d tempBoundingBox, Rhino.Display.Text3d textToDraw, double tempScaleFactor, System.Windows.Point tempOrigin, ref Canvas UnitPlanCanvas, double fontSize, System.Windows.Media.Brush foreGround)
{
System.Windows.Point tempTransformedPoint = pointConverter(tempBoundingBox, textToDraw.TextPlane.Origin, tempScaleFactor, tempOrigin);
Border tempBorder = new Border();
tempBorder.Height = 200;
tempBorder.Width = 200;
Canvas.SetLeft(tempBorder, pointConverter(tempBoundingBox, textToDraw.TextPlane.Origin, tempScaleFactor, tempOrigin).X - 200 / 2);
Canvas.SetTop(tempBorder, pointConverter(tempBoundingBox, textToDraw.TextPlane.Origin, tempScaleFactor, tempOrigin).Y - 200 / 2);
TextBlock textBlockToDraw = new TextBlock();
textBlockToDraw.Text = textToDraw.Text;
textBlockToDraw.Foreground = foreGround;
textBlockToDraw.FontSize = fontSize;
textBlockToDraw.VerticalAlignment = System.Windows.VerticalAlignment.Center;
textBlockToDraw.HorizontalAlignment = System.Windows.HorizontalAlignment.Center;
System.Windows.Media.RotateTransform tempRotater = new System.Windows.Media.RotateTransform(90);
textBlockToDraw.RenderTransform = tempRotater;
textBlockToDraw.RenderTransformOrigin = new System.Windows.Point(.5, .5);
tempBorder.Child = textBlockToDraw;
UnitPlanCanvas.Children.Add(tempBorder);
}
public override void DrawViewportWires(IGH_PreviewArgs args)
{
if (_text.Count == 0)
{
return;
}
//Plane plane;
//args.Viewport.GetFrustumFarPlane(out plane);
for (int i = 0; i < _text.Count; i++)
{
string text = _text[i];
Point3d point = _point[i];
double size = _size[i];
Polyline tile = _tile[i];
Plane plane;
args.Viewport.GetFrustumFarPlane(out plane);
plane.Origin = point;
Rhino.Display.Text3d drawText = new Rhino.Display.Text3d(text, plane, size);
args.Display.Draw3dText(text, Color.Black, plane, size, null, false, false, Rhino.DocObjects.TextHorizontalAlignment.Center, Rhino.DocObjects.TextVerticalAlignment.Middle);
args.Display.DrawPolyline(tile, Color.Black, 2);
drawText.Dispose();
}
}
public override void DrawViewportWires(IGH_PreviewArgs args)
{
base.DrawViewportWires(args);
if (texts.Count == 0)
{
return;
}
Plane plane;
args.Viewport.GetFrustumFarPlane(out plane);
for (int i = 0; i < texts.Count; i++)
{
string text = texts[i];
double size = sizes[i];
Point3d location = locations[i];
plane.Origin = location;
// Figure out the size. This means measuring the visible size in the viewport AT the current location.
double pixPerUnit;
Rhino.Display.RhinoViewport viewport = args.Viewport;
viewport.GetWorldToScreenScale(location, out pixPerUnit);
size = size / pixPerUnit;
Rhino.Display.Text3d drawText = new Rhino.Display.Text3d(text, plane, size);
args.Display.Draw3dText(drawText, args.WireColour);
drawText.Dispose();
}
}
public Guid DrawObjectWithSpecificLayer(Rhino.Display.Text3d text, NamedLayer layername)
{
Rhino.RhinoDoc.ActiveDoc.Layers.SetCurrentLayerIndex(layerIndexes[(int)layername], false);
Rhino.DocObjects.ObjectAttributes attribute = new Rhino.DocObjects.ObjectAttributes();
var result = Rhino.RhinoDoc.ActiveDoc.Objects.AddText(text.Text, text.TextPlane, 200, "Arial", false, false, Rhino.Geometry.TextJustification.Center);
Rhino.RhinoDoc.ActiveDoc.Layers.SetCurrentLayerIndex(0, false);
return(result);
}
private static Rhino.Display.Text3d centeredText(string text, double height, Point3d center)
{
Rhino.Display.Text3d tempRoomType = new Rhino.Display.Text3d(text, Plane.WorldXY, height);
Vector3d tempVector = new Vector3d(center - tempRoomType.BoundingBox.Center);
tempRoomType.TextPlane = new Plane(tempRoomType.TextPlane.Origin + tempVector, Vector3d.ZAxis);
return(tempRoomType);
}
public static RoomNamecard CreateRoomNamecard(Point3d CenterPoint, double RoomSize_squareMilimeter, double storiesHeight)
{
List <Curve> Form = CreateNamecardForm(CenterPoint);
Rhino.Display.Text3d roomType = centeredText("주거시설", 400, CenterPoint + new Point3d(0, 250, 0));
Rhino.Display.Text3d roomSize = centeredText(Math.Round(RoomSize_squareMilimeter / 1000000, 0).ToString() + "m\xB2", 400, CenterPoint + new Point3d(-500, -250, 0));
Rhino.Display.Text3d roomHeight = centeredText("CH : " + Math.Round(storiesHeight, 0).ToString(), 400, CenterPoint + new Point3d(-500, -250, 0));
Rhino.Display.Text3d[] text = { roomType, roomSize, roomHeight };
return(new RoomNamecard(Form, text.ToList()));
}
public Slider(Grasshopper.Kernel.Special.GH_NumberSlider slider, Plane p, string fontFace, double length, double textHeight, string name)
{
plane = p;
vMin = (double)slider.Slider.Minimum;
vMax = (double)slider.Slider.Maximum;
val = (double)slider.CurrentValue;
normVal = (val - vMin) / (vMax - vMin);
range = new Line(p.Origin, p.XAxis, length);
sValue = new Line(p.Origin, p.XAxis, length * normVal);
this.name = name;
this.textHeight = textHeight;
this.fontFace = fontFace;
label = new Rhino.Display.Text3d(name);
label.Height = textHeight;
Plane labPlane = new Plane(plane);
labPlane.Translate(p.YAxis * -(textHeight * 1.8));
label.TextPlane = labPlane;
tMin = new Rhino.Display.Text3d(Convert.ToString(vMin));
tMax = new Rhino.Display.Text3d(Convert.ToString(vMax));
tVal = new Rhino.Display.Text3d(Convert.ToString(val));
if (this.fontFace != "")
{
tMin.FontFace = this.fontFace;
tMax.FontFace = this.fontFace;
tVal.FontFace = this.fontFace;
label.FontFace = this.fontFace;
}
tMin.Height = textHeight;
tMax.Height = textHeight;
tVal.Height = textHeight * 1.2;
Plane tPlane = new Plane(plane);
tPlane.Translate(p.XAxis * -(textHeight * 0.8));
tMin.TextPlane = tPlane;
tPlane.Origin = p.Origin + p.XAxis * length;
tPlane.Translate(p.XAxis * (textHeight * 0.8));
tMax.TextPlane = tPlane;
tPlane.Origin = p.Origin + p.XAxis * length * normVal;
tPlane.Translate(p.YAxis * textHeight);
tVal.TextPlane = tPlane;
tMin.HorizontalAlignment = Rhino.DocObjects.TextHorizontalAlignment.Right;
tMax.HorizontalAlignment = Rhino.DocObjects.TextHorizontalAlignment.Left;
tVal.HorizontalAlignment = Rhino.DocObjects.TextHorizontalAlignment.Center;
tVal.Bold = true;
}
public PointUnited(Point3d rpoint)
{
float mousex = System.Windows.Forms.Cursor.Position.X;
float mousey = System.Windows.Forms.Cursor.Position.Y;
rPoint = rpoint;
wPoint = new System.Windows.Point(mousex, mousey);
Rhino.Display.Text3d text3d = new Rhino.Display.Text3d(rpoint.Z.ToString());
Rhino.RhinoDoc.ActiveDoc.Objects.AddText(text3d);
}
public override void DrawViewportWires(IGH_PreviewArgs args)
{
args.Viewport.GetFrustumFarPlane(out Plane plane);
Rhino.Display.RhinoViewport viewport = args.Viewport;
//X軸
for (int i = 0; i < _xline.Count; i++)
{
if (x_guideline == 1)
{
args.Display.DrawPatternedLine(_xline[i], Color.Black, 0x00001111, 1);
double size = fontsize; Point3d point = _xline[i].From; plane.Origin = point;
viewport.GetWorldToScreenScale(point, out double pixPerUnit); size /= pixPerUnit;
Rhino.Display.Text3d drawText = new Rhino.Display.Text3d(_xlabel[i], plane, size);
drawText.HorizontalAlignment = TextHorizontalAlignment.Center; drawText.VerticalAlignment = TextVerticalAlignment.Top;
args.Display.Draw3dText(drawText, Color.Black);
drawText.Dispose();
}
}
//Y軸
for (int i = 0; i < _yline.Count; i++)
{
if (y_guideline == 1)
{
args.Display.DrawPatternedLine(_yline[i], Color.Black, 0x00001111, 1);
double size = fontsize; Point3d point = _yline[i].From; plane.Origin = point;
viewport.GetWorldToScreenScale(point, out double pixPerUnit); size /= pixPerUnit;
Rhino.Display.Text3d drawText = new Rhino.Display.Text3d(_ylabel[i], plane, size);
drawText.HorizontalAlignment = TextHorizontalAlignment.Right; drawText.VerticalAlignment = TextVerticalAlignment.Middle;
args.Display.Draw3dText(drawText, Color.Black);
drawText.Dispose();
}
}
//Z軸
for (int i = 0; i < _zline.Count; i++)
{
if (z_guideline == 1)
{
args.Display.DrawPatternedLine(_zline[i], Color.Black, 0x00001111, 1);
double size = fontsize; Point3d point = _zline[i].From; plane.Origin = point;
viewport.GetWorldToScreenScale(point, out double pixPerUnit); size /= pixPerUnit;
Rhino.Display.Text3d drawText = new Rhino.Display.Text3d(_zlabel[i], plane, size);
drawText.HorizontalAlignment = TextHorizontalAlignment.Right; drawText.VerticalAlignment = TextVerticalAlignment.Middle;
args.Display.Draw3dText(drawText, Color.Black);
drawText.Dispose();
}
}
}///ここからGUIの作成*****************************************************************************************
/***************************************************/
// Create the preview of panels.
public static void AddPanelPreview(this Rhino.Display.CustomDisplay display, Model model, IEnumerable <int> ids, out HashSet <int> nodeIds, double graphicFactor, double elementFactor, double textFactor, double forceFactor, bool showComponentNumbers, bool showElementNumbers, bool showLCS, bool showLoads, bool showLoadValues, bool showEdges, bool showThk = false, Grasshopper.GUI.Gradient.GH_Gradient gradient = null, string panelResultType = "None", bool showResultValues = false)
{
nodeIds = new HashSet <int>();
if (model.Panels.Count == 0)
{
return;
}
// Take all results out first to determine min & max, otherwise could be done inside the loop.
Dictionary <int, double> panelTopResults = new Dictionary <int, double>();
Dictionary <int, double> panelBottomResults = new Dictionary <int, double>();
double panelMax = 0;
double panelMin = 0;
if (panelResultType != "None")
{
Dictionary <int, double[]> panelResults = model.Mesh.GetElementResults(panelResultType);
foreach (KeyValuePair <int, double[]> elResult in panelResults)
{
int id = elResult.Key;
double[] results = elResult.Value;
int halfResultCount = results.Length / 2;
panelTopResults.Add(id, results.Skip(halfResultCount).Average());
panelBottomResults.Add(id, results.Take(halfResultCount).Average());
}
panelMax = Math.Max(panelTopResults.Values.Max(), panelBottomResults.Values.Max());
panelMin = Math.Min(panelTopResults.Values.Min(), panelBottomResults.Values.Min());
}
ids = ids.Count() == 0 ? Enumerable.Range(0, model.Panels.Count) : ids.Select(i => i - 1);
foreach (int i in ids)
{
Panel panel = model.Panels[i];
if (showComponentNumbers)
{
Vector3d fOffset = panel.LCS.ZAxis * 0.002;
if (showThk)
{
fOffset += panel.LCS.ZAxis * 0.5 * panel.Thickness;
}
Plane fp = new Plane(panel.LCS.Origin + fOffset, panel.LCS.ZAxis);
Plane bp = new Plane(panel.LCS.Origin - fOffset, -panel.LCS.ZAxis);
Rhino.Display.Text3d ft = new Rhino.Display.Text3d("Panel " + panel.CCXId(), fp, elementFactor * 0.6 * textFactor);
Rhino.Display.Text3d bt = new Rhino.Display.Text3d("Panel " + panel.CCXId(), bp, elementFactor * 0.6 * textFactor);
ft.Bold = true;
bt.Bold = true;
display.AddText(ft, Color.DarkRed);
display.AddText(bt, Color.DarkRed);
}
foreach (Element element in panel.Elements)
{
Element2D e = element as Element2D;
int eId = e.Id.AsInteger;
foreach (Node n in e.Nodes.Take(e.PrimaryNodeCount))
{
nodeIds.Add(n.Id.AsInteger);
}
Color bottomColor;
Color topColor;
if (panelResultType == "None")
{
bottomColor = topColor = Color.Aqua;
}
else
{
bottomColor = gradient.ColourAt((panelBottomResults[eId] - panelMin) / (panelMax - panelMin));
topColor = gradient.ColourAt((panelTopResults[eId] - panelMin) / (panelMax - panelMin));
}
Point3d centroid = e.GetCentroid();
Vector3d normal = e.GetNormal();
Vector3d minOffset = normal * 0.001;
Vector3d offset = showThk ? normal * 0.5 * panel.Thickness : minOffset;
List <Point3d> front = new List <Point3d>();
List <Point3d> back = new List <Point3d>();
foreach (Point3d v in e.GetVertices())
{
front.Add(v + offset);
back.Add(v - offset);
}
display.AddPolygon(front, topColor, Color.Black, true, showEdges);
display.AddPolygon(back, bottomColor, Color.Black, true, showEdges);
if (showThk)
{
front.Add(front[0]);
back.Add(back[0]);
for (int j = 0; j < front.Count - 1; j++)
{
List <Point3d> fv = front.GetRange(j, 2);
List <Point3d> bv = back.GetRange(j, 2);
bv.Reverse();
fv.AddRange(bv);
display.AddPolygon(fv, Color.Aqua, Color.Black, true, true);
}
}
Plane tp = new Plane(panel.LCS);
tp.Origin = centroid + offset + minOffset;
tp.XAxis *= -1;
tp.ZAxis *= -1;
Plane bp = new Plane(panel.LCS);
bp.Origin = centroid - offset - minOffset;
if (showResultValues && panelTopResults.Count != 0)
{
Rhino.Display.Text3d t1 = new Rhino.Display.Text3d(panelTopResults[eId].ToString("G2"), tp, elementFactor * 0.4 * textFactor);
t1.Bold = true;
display.AddText(t1, Color.Black);
Rhino.Display.Text3d t2 = new Rhino.Display.Text3d(panelBottomResults[eId].ToString("G2"), bp, elementFactor * 0.4 * textFactor);
t2.Bold = true;
display.AddText(t2, Color.Black);
}
if (showLCS)
{
display.AddVector(centroid, e.Orientation[0] * elementFactor * graphicFactor, Color.Red);
display.AddVector(centroid, e.Orientation[1] * elementFactor * graphicFactor, Color.Green);
display.AddVector(centroid, normal * elementFactor * graphicFactor, Color.Blue);
}
if (showLoads && e.Pressure != 0)
{
Vector3d pv = normal * e.Pressure / forceFactor * elementFactor * 5 * graphicFactor;
List <Point3d> pressurePoints = new List <Point3d>();
foreach (Point3d pt in e.PopulateWithPoints())
{
if (e.Pressure > 0)
{
display.AddVector(pt - pv - offset, pv);
}
else
{
display.AddVector(pt - pv + offset, pv);
}
}
if (showLoadValues)
{
Plane p;
if (e.Pressure > 0)
{
p = new Plane(e.GetCentroid() - pv * 1.1 - offset, Vector3d.XAxis, Vector3d.ZAxis);
}
else
{
p = new Plane(e.GetCentroid() - pv * 1.1 + offset, Vector3d.XAxis, Vector3d.ZAxis);
}
Rhino.Display.Text3d t = new Rhino.Display.Text3d(e.Pressure.ToString("G2"), p, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Magenta);
}
}
if (showElementNumbers)
{
Rhino.Display.Text3d tt = new Rhino.Display.Text3d(e.CCXId(), tp, elementFactor * 0.4 * textFactor);
Rhino.Display.Text3d bt = new Rhino.Display.Text3d(e.CCXId(), bp, elementFactor * 0.4 * textFactor);
tt.Bold = true;
bt.Bold = true;
display.AddText(tt, Color.Black);
display.AddText(bt, Color.Black);
}
}
}
}
public List<Rhino.Display.Text3d> MeshTopoVerticeGetEdgeID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshTopologyVertexList vs = x.TopologyVertices;
Rhino.Geometry.Collections.MeshTopologyEdgeList el = x.TopologyEdges;
for (int i = 0; i < vs.Count; i++)
{
Point3d f = vs[i];
int[] fs = vs.ConnectedTopologyVertices(i);
if (fs.Length > 1)
{
string str = "";
for (int j = 0; j < fs.Length - 1; j++)
{
str += el.GetEdgeIndex(fs[j], i).ToString() + "-";
}
str += el.GetEdgeIndex(fs[fs.Length - 1], i).ToString();
Rhino.Display.Text3d te = new Rhino.Display.Text3d(str.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
}
return output;
}
/***************************************************/
// Create the preview of nodes.
public static void AddNodePreview(this Rhino.Display.CustomDisplay display, Model model, IEnumerable <int> ids, double graphicFactor, double elementFactor, double textFactor, double forceFactor, bool showNodes, bool showNodeNumbers, bool showLoads, bool showLoadValues, Grasshopper.GUI.Gradient.GH_Gradient gradient = null, string nodeResultType = "None", bool showResultValues = false)
{
if (model.Mesh == null || model.Mesh.Nodes.Count == 0)
{
return;
}
List <double> nodeResults = new List <double>();
double nodeMax = 0;
double nodeMin = 0;
if (nodeResultType != "None")
{
nodeResults = model.Mesh.GetNodeDisplacement(nodeResultType);
nodeMax = nodeResults.Max();
nodeMin = nodeResults.Min();
}
foreach (int i in ids)
{
Node n = model.Mesh.Nodes[i];
if (!n.Primary)
{
continue;
}
if (showNodes)
{
if (nodeResults.Count > 0)
{
display.AddPoint(n.Location, gradient.ColourAt((nodeResults[i] - nodeMin) / (nodeMax - nodeMin)), Rhino.Display.PointStyle.Simple, Math.Max(1, Convert.ToInt32(5 * elementFactor * graphicFactor)));
}
else
{
display.AddPoint(n.Location, Color.DarkRed, Rhino.Display.PointStyle.Simple, Math.Max(1, Convert.ToInt32(5 * elementFactor * graphicFactor)));
}
}
if (showResultValues && nodeResults.Count > 0)
{
Plane p = new Plane(n.Location + Vector3d.ZAxis * elementFactor, Vector3d.XAxis, Vector3d.ZAxis);
Rhino.Display.Text3d t = new Rhino.Display.Text3d(nodeResults[i].ToString("G2"), p, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Black);
}
if (showLoads && n.ForceLoad.Length != 0)
{
Vector3d dLoad = n.ForceLoad / forceFactor * elementFactor * 5 * graphicFactor;
display.AddVector(n.Location - dLoad, dLoad);
if (showLoadValues)
{
Plane p = new Plane(n.Location - dLoad * 1.1, Vector3d.XAxis, Vector3d.ZAxis);
Rhino.Display.Text3d t = new Rhino.Display.Text3d(n.ForceLoad.Length.ToString("G2"), p, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Magenta);
}
}
if (showLoads && n.MomentLoad.Length != 0)
{
Vector3d mLoad = n.MomentLoad;
Vector3d axis = new Vector3d(mLoad.X, mLoad.Y, mLoad.Z);
Plane ap = new Plane(n.Location, axis);
Arc mArc = new Arc(new Circle(ap, 2.5 * elementFactor * graphicFactor), Math.PI * 1.5);
display.AddArc(mArc);
display.AddVector(mArc.EndPoint, mArc.TangentAt(Math.PI * 1.5));
if (showLoadValues)
{
Plane p = new Plane(n.Location - n.MomentLoad / forceFactor * elementFactor * 5 * graphicFactor * 1.1, Vector3d.XAxis, Vector3d.ZAxis);
Rhino.Display.Text3d t = new Rhino.Display.Text3d(n.MomentLoad.Length.ToString("G2"), p, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Magenta);
}
}
if (showNodeNumbers)
{
Plane p = new Plane(n.Location, Vector3d.XAxis, Vector3d.ZAxis);
Rhino.Display.Text3d t = new Rhino.Display.Text3d(n.CCXId(), p, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Purple);
}
}
}
/***************************************************/
// Create the preview of bars.
public static void AddBarPreview(this Rhino.Display.CustomDisplay display, Model model, IEnumerable <int> ids, out HashSet <int> nodeIds, double graphicFactor, double elementFactor, double textFactor, bool showComponentNumbers, bool showElementNumbers, bool showLCS, bool showThk = false, string barResultType = "None", bool showResultValues = false)
{
nodeIds = new HashSet <int>();
if (model.Bars.Count == 0)
{
return;
}
// Take all results out first to determine min & max, otherwise could be done inside the loop.
Dictionary <int, double[]> barResults = new Dictionary <int, double[]>();
double BFactor = 0;
if (barResultType != "None")
{
barResults = model.Mesh.GetElementResults(barResultType);
double barExtreme = barResults.Values.Select(r => Math.Max(Math.Abs(r[0]), Math.Abs(r[1]))).Max();
BFactor = elementFactor / barExtreme * 10;
}
ids = ids.Count() == 0 ? Enumerable.Range(0, model.Bars.Count) : ids.Select(i => i - 1);
foreach (int i in ids)
{
Bar bar = model.Bars[i];
Plane locLCS = new Plane(bar.LCS);
locLCS.Rotate(bar.Rotation, locLCS.ZAxis);
locLCS.Translate(locLCS.XAxis * bar.Offset.X);
locLCS.Translate(locLCS.YAxis * bar.Offset.Y);
Vector3d hOffset = locLCS.XAxis * (bar.Profile.GetHeight() * 0.5);
if (showThk)
{
hOffset *= 2;
}
Plane tp = new Plane(locLCS.Origin, bar.LCS.YAxis, Vector3d.ZAxis);
tp.Translate(hOffset);
Curve[] profileCurves = bar.Profile.ToRhinoProfile();
if (showComponentNumbers)
{
Rhino.Display.Text3d t = new Rhino.Display.Text3d("Bar " + bar.CCXId(), tp, elementFactor * 0.6 * textFactor);
t.Bold = true;
display.AddText(t, Color.DarkRed);
}
foreach (Element element in bar.Elements)
{
Element1D e = element as Element1D;
int eId = e.Id.AsInteger;
nodeIds.Add(e.Nodes.First().Id.AsInteger);
nodeIds.Add(e.Nodes.Last().Id.AsInteger);
Point3d[] endPts = e.GetVertices().ToArray();
Point3d c = (endPts[0] + endPts[1]) * 0.5;
display.AddLine(new Line(endPts[0], endPts[1]), Color.Aqua);
if (showThk)
{
Plane eP = new Plane(locLCS);
List <Point3d> elementVertices = e.GetVertices().ToList();
eP.Translate(elementVertices[0] - bar.LCS.Origin);
Transform ptp = Transform.PlaneToPlane(Plane.WorldXY, eP);
// Use DisplayPipeline to get surface preview! Now a temporary solution given.
foreach (Curve pc in profileCurves)
{
Curve opc = pc.DuplicateCurve();
opc.Transform(ptp);
display.AddCurve(opc);
opc.Translate(elementVertices[1] - elementVertices[0]);
display.AddCurve(opc);
}
}
if (barResultType != "None")
{
Vector3d graphDir;
switch (barResultType)
{
case "Myy":
graphDir = locLCS.XAxis;
break;
case "Mxx":
graphDir = locLCS.YAxis;
break;
default:
string barResDir = barResultType.ToString().Substring(1, 1);
graphDir = barResDir == "y" ? locLCS.YAxis : locLCS.XAxis;
break;
}
graphDir *= BFactor * graphicFactor;
Point3d[] cPts = new Point3d[] { endPts[0], endPts[1], endPts[1] + graphDir * barResults[eId][1], endPts[0] + graphDir * barResults[eId][0] };
display.AddPolygon(cPts, Color.CornflowerBlue, Color.Black, true, true);
if (showResultValues && barResults.Count != 0)
{
Plane tp1 = new Plane(tp);
tp1.Translate(endPts[0] - tp1.Origin + graphDir * barResults[eId][0]);
Rhino.Display.Text3d t1 = new Rhino.Display.Text3d(barResults[eId][0].ToString("G2"), tp1, elementFactor * 0.4 * textFactor);
t1.Bold = true;
display.AddText(t1, Color.Black);
Plane tp2 = new Plane(tp);
tp2.Translate(endPts[1] - tp2.Origin + graphDir * barResults[eId][1]);
Rhino.Display.Text3d t2 = new Rhino.Display.Text3d(barResults[eId][1].ToString("G2"), tp2, elementFactor * 0.4 * textFactor);
t2.Bold = true;
display.AddText(t2, Color.Black);
}
}
if (showLCS)
{
display.AddVector(c, locLCS.XAxis * elementFactor * graphicFactor, Color.Red);
display.AddVector(c, locLCS.YAxis * elementFactor * graphicFactor, Color.Green);
display.AddVector(c, locLCS.ZAxis * elementFactor * graphicFactor, Color.Blue);
}
if (showElementNumbers)
{
Plane etp = new Plane(tp);
etp.Translate(c - bar.LCS.Origin);
Rhino.Display.Text3d t = new Rhino.Display.Text3d(e.CCXId(), etp, elementFactor * 0.4 * textFactor);
t.Bold = true;
display.AddText(t, Color.Black);
}
}
}
}
public List<Rhino.Display.Text3d> MeshFaceID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
for (int i = 0; i < x.Faces.Count; i++)
{
Point3d f = new Point3d();
if (x.Faces[i].IsQuad)
{
f += x.Vertices[x.Faces[i].A];
f += x.Vertices[x.Faces[i].B];
f += x.Vertices[x.Faces[i].C];
f += x.Vertices[x.Faces[i].D];
f /= 4;
}
else if (x.Faces[i].IsTriangle)
{
f += x.Vertices[x.Faces[i].A];
f += x.Vertices[x.Faces[i].B];
f += x.Vertices[x.Faces[i].C];
f /= 3;
}
Rhino.Display.Text3d te = new Rhino.Display.Text3d(i.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
public List<Rhino.Display.Text3d> MeshID(List<Mesh> x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
for (int i = 0; i < x.Count; i++)
{
Point3d p;
p = x[i].GetBoundingBox(true).Center;
Rhino.Display.Text3d text = new Rhino.Display.Text3d(i.ToString(), new Plane(p, Vector3d.ZAxis), 1);
output.Add(text);
}
return output;
}
public List<Rhino.Display.Text3d> MeshEdgeID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshTopologyEdgeList el = x.TopologyEdges;
for (int i = 0; i < el.Count; i++)
{
Point3d f = new Point3d();
Line l1 = el.EdgeLine(i);
f = l1.PointAt(0.5);
Rhino.Display.Text3d te = new Rhino.Display.Text3d(i.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
public List<Rhino.Display.Text3d> MeshFaceGetTopoVerticeID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshTopologyVertexList vs = x.TopologyVertices;
for (int i = 0; i < x.Faces.Count; i++)
{
Point3d f = new Point3d(); String outputText = "";
int[] data = vs.IndicesFromFace(i);
if (x.Faces[i].IsQuad)
{
int a = x.Faces[i].A, b = x.Faces[i].B, c = x.Faces[i].C, d = x.Faces[i].D;
f += x.Vertices[a];
f += x.Vertices[b];
f += x.Vertices[c];
f += x.Vertices[d];
f /= 4;
outputText += data[0].ToString() + "-";
outputText += data[1].ToString() + "-";
outputText += data[2].ToString() + "-";
outputText += data[3].ToString();
}
else if (x.Faces[i].IsTriangle)
{
f += x.Vertices[x.Faces[i].A];
f += x.Vertices[x.Faces[i].B];
f += x.Vertices[x.Faces[i].C];
f /= 3;
outputText += data[0].ToString() + "-";
outputText += data[1].ToString() + "-";
outputText += data[2].ToString();
}
Rhino.Display.Text3d te = new Rhino.Display.Text3d(outputText, new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
public List<Rhino.Display.Text3d> MeshVerticeID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshVertexList vs = x.Vertices;
for (int i = 0; i < vs.Count; i++)
{
Point3d f = vs[i];
Rhino.Display.Text3d te = new Rhino.Display.Text3d(i.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
// <summary>
public List<Rhino.Display.Text3d> MeshVerticeGetFaceID(Mesh x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshVertexList vs = x.Vertices;
for (int i = 0; i < vs.Count; i++)
{
Point3d f = vs[i];
int[] fs = vs.GetVertexFaces(i);
if (fs.Length > 1)
{
string str = "";
for (int j = 0; j < fs.Length - 1; j++)
{
str += fs[j].ToString() + "-";
}
str += fs[fs.Length - 1].ToString();
Rhino.Display.Text3d te = new Rhino.Display.Text3d(str.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
}
return output;
}
public static List<Rhino.Display.Text3d> DisplayRef(List<Vertice4> vs)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
for (int i = 0; i < vs.Count; i++)
{
Point3d f = vs[i].pos;
List<int> fs = vs[i].refer;
List<int> fs2 = vs[i].refer2;
List<int> fs3 = vs[i].refer3;
string str = "";
for (int j = 0; j < fs2.Count; j++)
{
str += fs2[j].ToString() + "-";
}
Rhino.Display.Text3d te = new Rhino.Display.Text3d(str.ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
public List<Rhino.Display.Text3d> MeshTopoVerticeData(Mesh x, List<double> data)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
Rhino.Geometry.Collections.MeshTopologyVertexList vs = x.TopologyVertices;
if (data.Count < vs.Count) return output;
for (int i = 0; i < vs.Count; i++)
{
Point3d f = vs[i];
Rhino.Display.Text3d te = new Rhino.Display.Text3d(data[i].ToString(), new Plane(f, Vector3d.ZAxis), 1);
output.Add(te);
}
return output;
}
// <summary>
public List<Rhino.Display.Text3d> GeoID(List<Object> x)
{
List<Rhino.Display.Text3d> output = new List<Rhino.Display.Text3d>();
for (int i = 0; i < x.Count; i++)
{
Point3d p;
// index.Add(i);
if (x[i].GetType() == typeof(Line))
{
Line l = (Line)(x[i]);
p = (l.From + l.To) / 2;
}
else
{
Rhino.Geometry.GeometryBase base1 = (Rhino.Geometry.GeometryBase)x[i];
// pos.Add(base1.GetBoundingBox(true).Center);
p = base1.GetBoundingBox(true).Center;
}
Rhino.Display.Text3d text = new Rhino.Display.Text3d(i.ToString(), new Plane(p, Vector3d.ZAxis), 1);
output.Add(text);
}
return output;
}
