/// <summary>
/// Draws the panel.
/// </summary>
/// <param name="xLowerBound">The x lower bound.</param>
/// <param name="xUpperBound">The x upper bound.</param>
/// <param name="yLowerBound">The y lower bound.</param>
/// <param name="yUpperBound">The y upper bound.</param>
/// <param name="panel">The panel.</param>
/// <param name="para">The para.</param>
public static void drawPanel(double xLowerBound, double xUpperBound, double yLowerBound, double yUpperBound, PerforationPanel panel, bool fixingHolesManipulated, bool enablePerf)
{
RhinoDoc doc = RhinoDoc.ActiveDoc;
List <Guid> guidList = new List <Guid>();
string layerName = null; //name of layers
int layerIndex = 0; //index of layers
Rhino.DocObjects.Layer parent_layer_Approval = null; //create variable to hold approval layer
Rhino.DocObjects.Layer parent_layer_Nesting = null; //create variable to hold nesting layer
//Rhino.DocObjects.Layer childlayer = null; //Create a variable to hold child layers
string text = "";
double height = panel.labelHeight / 3;
const string font = "Arial";
Guid burrLeader;
RhinoObject labelText;
Rhino.Geometry.Point3d pt = new Rhino.Geometry.Point3d(0, 0, 0);
Rhino.Geometry.Plane plane = doc.Views.ActiveView.ActiveViewport.ConstructionPlane();
//start
//Creating layer called "Layers for Approval Drawings" to make it a parent layer
layerName = "LAYERS FOR APPROVAL DRAWINGS";
// Does a layer with the same name already exist?
layerIndex = doc.Layers.Find(layerName, true);
// If layer does not exist
if (layerIndex == -1)
{
// Add a new layer to the document
layerIndex = doc.Layers.Add(layerName, System.Drawing.Color.Black);
parent_layer_Approval = doc.Layers[layerIndex]; //set the layer as parent layer
}
else
{
parent_layer_Approval = doc.Layers[layerIndex];
}
layerName = "LAYERS FOR NESTING";
// Does a layer with the same name already exist?
layerIndex = doc.Layers.Find(layerName, true);
// If layer does not exist
if (layerIndex == -1)
{
// Add a new layer to the document
layerIndex = doc.Layers.Add(layerName, System.Drawing.Color.Black);
parent_layer_Nesting = doc.Layers[layerIndex];
}
else
{
parent_layer_Nesting = doc.Layers[layerIndex];
}
// Create a new layer called Perimeter
layerName = "PANEL PERIMETER";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Black, parent_layer_Nesting); //make Nesting layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
//Bottom and left justified the panels in the grid (panel x0,x1,y0,y1 - refers to the folds edg (folds layer)
double panelX0 = xLowerBound;
double panelX1 = panelX0 + panel.X;
double panelY0 = yUpperBound;
double panelY1 = panelY0 + panel.Y;
List <Point3d> list = new List <Point3d>();
panel.Perimeter = doc.Objects.AddLine(new Point3d(panelX0, panelY1, 0), new Point3d(panelX1, panelY1, 0));
guidList.Add(panel.Perimeter);
panel.Perimeter = doc.Objects.AddLine(new Point3d(panelX0, panelY0, 0), new Point3d(panelX0, panelY1, 0));
guidList.Add(panel.Perimeter);
panel.Perimeter = doc.Objects.AddLine(new Point3d(panelX0, panelY0, 0), new Point3d(panelX1, panelY0, 0));
guidList.Add(panel.Perimeter);
panel.Perimeter = doc.Objects.AddLine(new Point3d(panelX1, panelY0, 0), new Point3d(panelX1, panelY1, 0));
guidList.Add(panel.Perimeter);
//MetrixUtilities.joinCurves(doc.Layers.Find("PANEL PERIMETER", true)); //join the closed curves using the method
//Calculating the borders
double borderX0 = panelX0 + panel.LeftBorder; //refers to the borders corners
double borderY0 = panelY0 + panel.BottomBorder;
double borderX1 = panelX1 - panel.RightBorder;
double borderY1 = panelY1 - panel.TopBorder;
BoundingBox panelBox = new BoundingBox(borderX0, borderY0, 0, borderX1, borderY1, 0);
List <Point3d> rectangle_corners = panelBox.GetCorners().Distinct().ToList();
// add 1st point at last to close the loop
rectangle_corners.Add(rectangle_corners[0]);
// Create a new layer called Border
layerName = "BORDERS";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Purple, parent_layer_Approval); //pass to the method, make Approval layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
//Add the borders only if the panel is not solid
if (panel.DrawPerf != 3)
{
//Create a bounding box for the borders
panel.Border = doc.Objects.AddPolyline(rectangle_corners);
guidList.Add(panel.Border);
}
// Create a new layer called LABELS
layerName = "LABELS";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Red, parent_layer_Nesting); //pass to the method, make Nesting layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
text = panel.PartName;
height = panel.labelHeight;
pt = new Rhino.Geometry.Point3d(borderX0, borderY0 + 4 + height, 0);
plane = doc.Views.ActiveView.ActiveViewport.ConstructionPlane();
plane.Origin = pt;
panel.Label = doc.Objects.AddText(text, plane, height, font, false, false);
guidList.Add(panel.Label);
RhinoApp.RunScript("SelNone", true);
labelText = doc.Objects.Find(panel.Label);
labelText.Select(true);
BoundingBox bbox = labelText.Geometry.GetBoundingBox(true);
double minX = bbox.Corner(true, true, true).X;
double maxX = bbox.Corner(false, true, true).X;
double minY = bbox.Corner(true, true, true).Y;
double maxY = bbox.Corner(true, false, true).Y;
if (maxX - minX >= panel.X - panel.LeftBorder - panel.RightBorder)
{
double ratio = 1;
labelText.Select(true);
if (panel.Y > panel.X)
{
RhinoApp.RunScript("_-rotate " + bbox.Center.X + "," + bbox.Center.Y + " " + "90", true);
}
if (maxY - minY + 4 >= panel.X - panel.LeftBorder - panel.RightBorder)
{
ratio = (panel.X - panel.LeftBorder - panel.RightBorder) / (2 * (maxY - minY));
if (ratio * (maxX - minX) >= (panel.Y - panel.TopBorder - panel.BottomBorder))
{
ratio = ratio * (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * ratio * (maxX - minX));
}
}
else if (maxX - minX >= panel.Y - panel.TopBorder - panel.BottomBorder)
{
ratio = (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * (maxX - minX));
}
RhinoApp.RunScript("_-Scale " + bbox.Center.X + "," + bbox.Center.Y + " " + ratio, true);
BoundingBox bbox3 = labelText.Geometry.GetBoundingBox(true);
double distance1 = borderX0 + ratio * (bbox3.Max.X - bbox3.Min.X) / 2;
double distance2 = borderY0 + ratio * (bbox3.Max.Y - bbox3.Min.Y) / 2;
if (panel.Y > panel.X)
{
distance1 = borderX0 + ratio * (bbox3.Max.Y - bbox3.Min.Y) / 2;
distance2 = borderY0 + ratio * (bbox3.Max.X - bbox3.Min.X) / 2;
}
RhinoApp.WriteLine(bbox3.Center.ToString());
RhinoApp.RunScript("_-Move " + bbox3.Center.X + "," + bbox3.Center.Y + ",0 " + distance1 + "," + distance2 + ",0", true);
}
else if (maxY - minY >= panel.Y - panel.TopBorder - panel.BottomBorder)
{
double ratio = (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * (maxY - minY));
labelText.Select(true);
RhinoApp.RunScript("_-Scale " + bbox.Center.X + "," + bbox.Center.Y + " " + ratio, true);
BoundingBox bbox2 = labelText.Geometry.GetBoundingBox(true);
double distanceX = borderX0 + ratio * (bbox2.Center.X - bbox2.Min.X) / 2;
double distanceY = panelBox.Min.Y + ratio * (bbox2.Center.Y - bbox.Min.Y) / 2;
RhinoApp.WriteLine(bbox2.Center.ToString());
RhinoApp.RunScript("_-Move " + bbox2.Center.X + "," + bbox2.Center.Y + ",0 " + distanceX + "," + distanceY + ",0", true);
}
labelText.Select(false);
// If dotFontLabel is more than 0 draw the dot font text on the panel, else skip
// if (para.DotFont == 1)
if (panel.DotFontLabel > 0)
{
// Create a new layer called DOT SCRIBE LABEL
layerName = "DOT SCRIBE LABEL";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Black, parent_layer_Nesting); //make Nesting layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
// Put in the Dot Matrix Label
// Draw at the right side of the border aand 10mm from the bottom and 100mm from the left edge
double panelOffset = 0;
if (panel.BottomBorder - 8.7 <= 6)
{
panelOffset = (panel.BottomBorder - 8.7) / 2;
}
else
{
panelOffset = 3.1;
}
if (panel.X < 160)
{
pt = new Point3d(1 * (panelX0 + panelX1) / 2, panelY0 + panelOffset + 8.7, 0);
}
else
{
pt = new Point3d(panelX1 - 100, panelY0 + panelOffset + 8.7, 0);
}
if (panel.DotFontLabellerSide.Equals("Rear"))
{
DotMatrixLabellerCommand.Instance.drawDotMatrix(pt, panel.PartName, 8.7, panel.X); //set the size of dotfont
}
else //If not revered use front labeller
{
DotMatrixFrontLabellerCommand.Instance.drawDotMatrix(pt, panel.PartName, 8.7);
}
}
//checks whether the perforation layers exists, if not create layer and make Approval layer the parent layer
//If exists, make Approval layer the parent layer
layerName = "PERFORATION";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Green, parent_layer_Approval);
// doc.Layers.SetCurrentLayerIndex(layerIndex, true);
//Create Temporary Layer
if (panel.DrawPerf == 1)
{
RhinoUtilities.SetActiveLayer("TemporaryPerfLayer", System.Drawing.Color.Green);
doc.Views.Redraw();
RhinoApp.RunScript("SelAll", true);
RhinoApp.RunScript("-_Rotate 0,0,0 -" + panel.patternDirection, true);
PerforationForm perforationForm = new PerforationForm(new Rhino.DocObjects.ObjRef(panel.Border).Curve());
perforationForm.enablePerforation = enablePerf;
perforationForm.drawPerforationDesign(panel.PatternName, true, enablePerf);
RhinoApp.RunScript("SelAll", true);
RhinoApp.RunScript("-_Rotate 0,0,0 " + panel.patternDirection, true);
RhinoApp.RunScript("SelNone", true);
var rhinoObjects = doc.Objects.FindByLayer("TemporaryPerfLayer");
var toolHitObjects = doc.Objects.FindByLayer("TemporaryToolHit");
var temporaryTool2Layer = doc.Objects.FindByLayer("TemporaryTool2Layer");
//Perf objects
if (rhinoObjects != null && rhinoObjects.Length > 1)
{
foreach (var rhinObj in rhinoObjects)
{
rhinObj.Select(true);
}
if (panel.patternDirection == 1)
{
RhinoApp.RunScript("-_Rotate 0,0,0 -90", true);
RhinoApp.RunScript("-_Rotate 0,0,0 90", true);
}
RhinoUtilities.SetActiveLayer(Properties.Settings.Default.PerforationLayerName, System.Drawing.Color.Green);
RhinoApp.RunScript("-_ChangeLayer PERFORATION", true);
int index = doc.Layers.Find("TemporaryPerfLayer", true);
doc.Layers.Delete(index, true);
}
//tool hit objects
if (toolHitObjects != null && toolHitObjects.Length > 1)
{
foreach (var toolhitObj in toolHitObjects)
{
toolhitObj.Select(true);
}
if (panel.patternDirection == 1)
{
RhinoApp.RunScript("-_Rotate 0,0,0 -90", true);
RhinoApp.RunScript("-_Rotate 0,0,0 90", true);
}
RhinoUtilities.SetActiveLayer(Properties.Settings.Default.ToolHitLayerName, System.Drawing.Color.Black);
RhinoApp.RunScript("-_ChangeLayer TOOL HIT", true);
int index = doc.Layers.Find("TemporaryToolHit", true);
doc.Layers.Delete(index, true);
}
//Tool 2 objects
if (temporaryTool2Layer != null && temporaryTool2Layer.Length > 1)
{
foreach (var tool2Objs in temporaryTool2Layer)
{
tool2Objs.Select(true);
}
if (panel.patternDirection == 1)
{
RhinoApp.RunScript("-_Rotate 0,0,0 -90", true);
RhinoApp.RunScript("-_Rotate 0,0,0 90", true);
}
RhinoUtilities.SetActiveLayer("Tool 2 Layer", System.Drawing.Color.Yellow);
RhinoApp.RunScript("-_ChangeLayer Tool 2 Layer", true);
int index = doc.Layers.Find("TemporaryTool2Layer", true);
doc.Layers.Delete(index, true);
}
doc.Views.Redraw();
}
DimensionStyle dimStyle = MetrixUtilities.createMetrixRealDimension(); //sets the metrix real dimension
Point3d origin = new Point3d(0, 0, 0);
Point3d offset = new Point3d(0, 0, 0);
Point2d ext1;
Point2d ext2;
Point2d linePt;
LinearDimension dimension;
Guid dimGuid = new Guid();
double u, v;
// Create a new layer called DIMENSIONS BLACK
layerName = "DIMENSIONS BLACK";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Black, parent_layer_Approval); //pass to the method, make Approval layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
// Add the word perforated area to the panel
if (panel.DrawPerf != 3) //Add the text only if the panel is not a solid panel
{
//pt = new Rhino.Geometry.Point3d(((borderX1 + borderX0) / 2) - 117.5, ((borderY1 + borderY0) / 2) + 33, 0);
text = System.Text.RegularExpressions.Regex.Unescape(panel.PerfText);
height = panel.labelHeight / 2;
pt = new Rhino.Geometry.Point3d(((borderX1 + borderX0) / 2) - 117.5, ((borderY1 + borderY0) / 2) + 10 + height, 0);
plane.Origin = pt;
Guid perforatedAreaLabel = doc.Objects.AddText(text, plane, height, font, false, false);
guidList.Add(perforatedAreaLabel);
double ratio = 1;
if (panel.X - panel.LeftBorder - panel.RightBorder < 230)
{
RhinoApp.RunScript("SelNone", true);
labelText = doc.Objects.Find(perforatedAreaLabel);
labelText.Select(true);
bbox = labelText.Geometry.GetBoundingBox(true);
if (panel.Y > panel.X)
{
RhinoApp.RunScript("_-rotate " + bbox.Center.X + "," + bbox.Center.Y + " " + "90", true);
}
minX = bbox.Corner(true, true, true).X;
maxX = bbox.Corner(false, true, true).X;
minY = bbox.Corner(true, true, true).Y;
maxY = bbox.Corner(true, false, true).Y;
if (maxY - minY > panel.X - panel.LeftBorder - panel.RightBorder)
{
ratio = (panel.X - panel.LeftBorder - panel.RightBorder) / (2 * (maxY - minY));
if (ratio * (maxX - minX) > (panel.Y - panel.TopBorder - panel.BottomBorder))
{
ratio = ratio * (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * ratio * (maxX - minX));
}
}
else if (maxX - minX >= panel.Y - panel.TopBorder - panel.BottomBorder)
{
ratio = (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * (maxX - minX));
}
labelText.Select(true);
RhinoApp.RunScript("_-Scale " + bbox.Center.X + "," + bbox.Center.Y + " " + ratio, true);
BoundingBox bbox2 = labelText.Geometry.GetBoundingBox(true);
double distanceX = (borderX0 + borderX1) / 2;
double distanceY = (borderY0 + borderY1) / 2;
RhinoApp.WriteLine(bbox2.Center.ToString());
RhinoApp.RunScript("_-Move " + bbox2.Center.X + "," + bbox2.Center.Y + ",0 " + distanceX + "," + distanceY + ",0", true);
}
else
{
RhinoApp.RunScript("SelNone", true);
labelText = doc.Objects.Find(perforatedAreaLabel);
labelText.Select(true);
bbox = labelText.Geometry.GetBoundingBox(true);
minX = bbox.Corner(true, true, true).X;
maxX = bbox.Corner(false, true, true).X;
minY = bbox.Corner(true, true, true).Y;
maxY = bbox.Corner(true, false, true).Y;
if (maxX - minX > panel.Y - panel.TopBorder - panel.BottomBorder)
{
ratio = (panel.Y - panel.TopBorder - panel.BottomBorder) / (2 * (maxY - minY));
labelText.Select(true);
RhinoApp.RunScript("_-Scale " + bbox.Center.X + "," + bbox.Center.Y + " " + ratio, true);
}
BoundingBox bbox2 = labelText.Geometry.GetBoundingBox(true);
double distanceX = (borderX0 + borderX1) / 2;
double distanceY = (borderY0 + borderY1) / 2;
RhinoApp.WriteLine(bbox2.Center.ToString());
RhinoApp.RunScript("_-Move " + bbox2.Center.X + "," + bbox2.Center.Y + ",0 " + distanceX + "," + distanceY + ",0", true);
}
}
// Add horizontal dimension
origin = new Point3d(panelX1, panelY0 - 50, 0);
offset = new Point3d(panelX0, panelY0 - 50, 0);
pt = new Point3d((offset.X - origin.X) / 2, panelY0 - 100, 0);
plane = Plane.WorldXY;
plane.Origin = origin;
//double u, v;
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension); //add the bottom dimension(vertical line)
guidList.Add(dimGuid);
// Add vertical dimension for panel
origin = new Point3d(panelX0 - 20, panelY0, 0);
offset = new Point3d(panelX0 - 20, panelY1, 0);
pt = new Point3d(panelX0 - 100, (offset.Y - origin.Y) / 2, 0);
plane = Plane.WorldXY;
plane.XAxis = new Vector3d(0, -1, 0);
plane.YAxis = new Vector3d(-1, 0, 0);
plane.ZAxis = new Vector3d(0, 0, -1);
plane.Origin = origin;
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension); //adds the left dimension
guidList.Add(dimGuid);
MetrixUtilities.createMetrixBordersDimension(); //sets the dimension style for borders
// Draw Border dimension on BORDERS layer
if (panel.DrawPerf != 3) ///Add only if the panel is not a solid panel
{
layerName = "BORDERS";
layerIndex = doc.Layers.Find(layerName, true);
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
// Add horizontal borders dimension
origin = new Point3d(panelX1, (panelY0 + panelY1) / 2, 0);
offset = new Point3d(borderX1, (panelY0 + panelY1) / 2, 0);
pt = new Point3d((offset.X - origin.X) / 2, (borderY0 + borderY1) / 2, 0);
plane = Plane.WorldXY;
plane.Origin = origin;
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension);
guidList.Add(dimGuid);
// Add horizontal borders dimension
origin = new Point3d(panelX0, (panelY0 + panelY1) / 2, 0);
offset = new Point3d(borderX0, (panelY0 + panelY1) / 2, 0);
pt = new Point3d((offset.X - origin.X) / 2, (borderY0 + borderY1) / 2, 0);
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension);
guidList.Add(dimGuid);
// Add vertical border dimension for panel
origin = new Point3d((panelX0 + panelX1) / 2, panelY0, 0);
offset = new Point3d((panelX0 + panelX1) / 2, borderY0, 0);
pt = new Point3d((borderX0 + borderX1) / 2, (offset.Y - origin.Y) / 2, 0);
plane = Plane.WorldXY;
plane.XAxis = new Vector3d(0, -1, 0);
plane.YAxis = new Vector3d(-1, 0, 0);
plane.ZAxis = new Vector3d(0, 0, -1);
plane.Origin = origin;
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension);
guidList.Add(dimGuid);
origin = new Point3d((panelX0 + panelX1) / 2, panelY1, 0);
offset = new Point3d((panelX0 + panelX1) / 2, borderY1, 0);
pt = new Point3d((borderX0 + borderX1) / 2, (offset.Y - origin.Y) / 2, 0);
plane.ClosestParameter(origin, out u, out v);
ext1 = new Point2d(u, v);
plane.ClosestParameter(offset, out u, out v);
ext2 = new Point2d(u, v);
plane.ClosestParameter(pt, out u, out v);
linePt = new Point2d(u, v);
dimension = new LinearDimension(plane, ext1, ext2, linePt);
dimGuid = doc.Objects.AddLinearDimension(dimension);
guidList.Add(dimGuid);
}
MetrixUtilities.createMetrixRealDimension(); //sets the default dimension style
layerName = "VIEWPORT";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Black, parent_layer_Approval); //pass to the method, make Approval layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
Rhino.DocObjects.RhinoObject label = doc.Objects.Find(panel.Label);
string exportFileName = "1";
if (label != null)
{
label.Select(true);
Rhino.Geometry.TextEntity textentity = label.Geometry as Rhino.Geometry.TextEntity;
exportFileName = textentity.Text + ".dxf";
}
/**
* Checks if the dxf files are required by the user, if yes check whether the panel is perforated
* using the drawPerf property in the panel. If it is a perforated panel then check if the directory
* for perforated panels dxf files already exists, if does not exist create directory and run command.
* If panel is not perforated, create directory to save not perforated panels dxf files if the directory
* does not exist. Then run the dxf file create command.
* */
if (panel.DXFFilesRequired.Equals("Yes"))
{
String path;
String immediateFolderName = Path.GetFileName(Path.GetDirectoryName(doc.Path)); //get the immediate foldername which the file is located in
//split the path to get the parent folder.
String[] newPath = MetrixUtilities.splitString(Path.GetDirectoryName(doc.Path), immediateFolderName);
if (panel.DrawPerf == 1) //checks if panel is perforated
{
path = newPath[0] + ("5TRUMPF") + ("\\WITH PERF"); //merge path for perforated files
if (!Directory.Exists(path)) //check if directory already exists
{
System.IO.Directory.CreateDirectory(path); //create directory if not exist
}
}
else
{
path = newPath[0] + ("5TRUMPF") + ("\\NO PERF"); //merge path for not perforated files
if (!Directory.Exists(path)) //check if directory already exists
{
System.IO.Directory.CreateDirectory(path); //create directory if not exist
}
}
string command = string.Format("-_Export \"" + path + @"\" + exportFileName + "\" Scheme \"R12 Lines & Arcs\" Enter");
// Export the selected curves
RhinoApp.RunScript(command, true);
}
// Unselect all objects
doc.Objects.UnselectAll();
// Default layer index
int defaultLayerIndex = doc.Layers.Find("Default", true);
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
////if draw perf is false, turnoff the toolhit layer
//if (Convert.ToBoolean(panel.DrawPerf) != true)
//{
// layerName = "Tool Hit";
// layerIndex = doc.Layers.Find(layerName, true);
// doc.Layers[layerIndex].IsVisible = false;
//}
MetrixUtilities.joinCurves(doc.Layers.Find("PANEL PERIMETER", true));
if (panel.FixingHoles == "1")
{
//if fixing holes are not manipulated, recalculate distances
if (!fixingHolesManipulated)
{
//panel = reCalculateDistances(panel);
//Below method is if fixing holes are automated
guidList = FixingHoles.drawFixingFoles(panel, null, false, 0, 0, panelY0, panelY1, dimStyle, guidList, panelX0, panelX1, 0, 0, 0, 0, 0); //add fixing holes
}
else
{
//Below method is if fixing holes have been manipulated
guidList = CustomFixingHoles.drawFixingFoles(panel, null, false, 0, 0, panelY0, panelY1, dimStyle, guidList, panelX0, panelX1, 0, 0, 0, 0, 0); //add fixing holes
}
}
layerName = "VIEWPORT";
layerIndex = createSubLayers.createSubLayer(layerName,
System.Drawing.Color.Black, parent_layer_Approval); //pass to the method, make Approval layer the parent layer
doc.Layers.SetCurrentLayerIndex(layerIndex, true);
foreach (Guid g in guidList)
{
int idx = RhinoDoc.ActiveDoc.Groups.Find(panel.PartName, false);
if (idx < 0)
{
idx = RhinoDoc.ActiveDoc.Groups.Add(panel.PartName);
}
RhinoDoc.ActiveDoc.Groups.AddToGroup(idx, g);
}
//end
}
public Boolean createDimensions(List <Guid> guidList)
{
doc = RhinoDoc.ActiveDoc;
go = new Rhino.Input.Custom.GetObject();
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.GroupSelect = true;
go.SubObjectSelect = false;
go.EnableClearObjectsOnEntry(false);
go.EnableUnselectObjectsOnExit(false);
go.DeselectAllBeforePostSelect = false;
go.EnableSelPrevious(true);
go.EnablePreSelect(true, false);
go.GeometryFilter = Rhino.DocObjects.ObjectType.Curve;
go.SetCommandPrompt("Select panels to create dimensions");
while (true)
{
go.ClearCommandOptions();
// perform the get operation. This will prompt the user to select the list of curves, but also
// allow for command line options defined above
GetResult result = go.GetMultiple(1, 0);
if (result == GetResult.Option)
{
go.EnablePreSelect(false, true);
continue;
}
else if (result == GetResult.Number)
{
continue;
}
else if (result != GetResult.Object)
{
}
if (go.ObjectsWerePreselected)
{
go.EnablePreSelect(true, true);
break;
}
break;
}
int objecTCount = go.ObjectCount;
foreach (ObjRef objRef in go.Objects()) //Go through each curve in the objects list
{
Curve curve = objRef.Curve();
// If curve is null, means objRef is not a curve
if (curve == null)
{
dimensionsCreated = false;
continue;
}
// If curve is not Closed Curve
if (curve.IsClosed == false)
{
RhinoApp.WriteLine(objRef.ToString() + " curve is open");
dimensionsCreated = false;
continue;
}
if (curve.IsPlanar() == false)
{
RhinoApp.WriteLine(objRef.ToString() + " curve is not planar");
dimensionsCreated = false;
continue;
}
MetrixUtilities.createMetrixRealDimension();
BoundingBox boundingBox = curve.GetBoundingBox(Plane.WorldXY);
Point3d min = boundingBox.Min;
Point3d max = boundingBox.Max;
//Add Horizontal dimension
origin = new Point3d(min.X, max.Y, 0);
offset = new Point3d(max.X, max.Y, 0);
pt = new Point3d((offset.X - origin.X) / 2, max.Y + 180, 0);
plane = Plane.WorldXY;
plane.Origin = origin;
guidList = drawDimension(plane, pt, offset, origin, guidList, doc); //draw the dimension
//Add vertical Dimensions
origin = new Point3d(min.X, min.Y, 0);
offset = new Point3d(min.X, max.Y, 0); //left
pt = new Point3d(min.X - 180, (offset.Y - origin.Y) / 2, 0);
plane = Plane.WorldXY;
plane.XAxis = new Vector3d(0, -1, 0); //-1 to rotate the dimension vertically
plane.YAxis = new Vector3d(-1, 0, 0);
plane.ZAxis = new Vector3d(0, 0, -1);
plane.Origin = origin;
guidList = drawDimension(plane, pt, offset, origin, guidList, doc); //draw the dimension
dimensionsCreated = true;
}
doc.Views.Redraw(); //finally redraw to refresh the screen and display dimensions to user
return(dimensionsCreated);
}
/// <summary>
/// Draws the perforation.
/// </summary>
/// <returns></returns>
public override double drawPerforation(Curve boundaryCurve)
{
List <PointMap> pointMapList = new List <PointMap>();
// Add two Point Map in the list
pointMapList.Add(new PointMap());
pointMapList.Add(new PointMap());
// Find the boundary
BoundingBox boundingBox = boundaryCurve.GetBoundingBox(Plane.WorldXY);
Point3d min = boundingBox.Min;
Point3d max = boundingBox.Max;
double spanX = max.X - min.X;
double spanY = max.Y - min.Y;
int punchQtyX = ((int)((spanX - punchingToolList[0].X) / XSpacing)) + 1;
double marginX = (spanX - ((punchQtyX - 1) * XSpacing)) / 2;
double YSpacing = XSpacing;
int punchQtyY = ((int)((spanY - punchingToolList[0].Y) / YSpacing)) + 1;
double marginY = (spanY - ((punchQtyY - 1) * YSpacing)) / 2;
Point3d point;
RhinoDoc doc = RhinoDoc.ActiveDoc;
double firstX = min.X + marginX;
double firstY = min.Y + marginY;
// Set the layer
int currentLayer = doc.Layers.CurrentLayerIndex;
Random random = new Random();
int tool0Count = 0;
int tool1Count = 0;
for (int y = 0; y < punchQtyY; y++)
{
for (int x = 0; x < punchQtyX; x++)
{
// Locate the point
point = new Point3d(firstX + x * XSpacing, firstY + y * YSpacing, 0);
// If the randomness is bigger than random, put small tool
if (random.NextDouble() < randomness)
{
if (punchingToolList[0].isInside(boundaryCurve, point) == true)
{
pointMapList[1].AddPoint(new PunchingPoint(point));
punchingToolList[1].drawTool(point);
tool1Count++;
if (MetrixUtilities.IsLayerFound("TemporaryPerfLayer"))
{
RhinoUtilities.SetActiveLayer("TemporaryTool2Layer", System.Drawing.Color.Yellow);
punchingToolList[1].drawTool(point);
doc.Layers.SetCurrentLayerIndex(currentLayer, true);
}
else
{
RhinoUtilities.SetActiveLayer("Tool 2 Layer", System.Drawing.Color.Yellow);
punchingToolList[1].drawTool(point);
RhinoUtilities.SetActiveLayer(Properties.Settings.Default.PerforationLayerName, System.Drawing.Color.Green);
}
}
}
else
{
if (punchingToolList[0].isInside(boundaryCurve, point) == true)
{
if (punchingToolList[1].ClusterTool.Enable == true)
{
pointMapList[1].AddPoint(new PunchingPoint(point));
}
if (MetrixUtilities.IsLayerFound("TemporaryPerfLayer"))
{
RhinoUtilities.SetActiveLayer("TemporaryTool2Layer", System.Drawing.Color.Yellow);
punchingToolList[1].drawTool(point);
doc.Layers.SetCurrentLayerIndex(currentLayer, true);
}
else
{
RhinoUtilities.SetActiveLayer("Tool 2 Layer", System.Drawing.Color.Yellow);
punchingToolList[1].drawTool(point);
RhinoUtilities.SetActiveLayer(Properties.Settings.Default.PerforationLayerName, System.Drawing.Color.Green);
}
pointMapList[0].AddPoint(new PunchingPoint(point));
punchingToolList[0].drawTool(point);
tool0Count++;
}
}
}
}
// Draw the cluster for each tool
for (int i = 0; i < punchingToolList.Count; i++)
{
// Only draw cluster tool if it is enable
if (punchingToolList[i].ClusterTool.Enable == true)
{
drawCluster(pointMapList[i], punchingToolList[i]);
}
else
{
// Set to Tool Hit Layer
RhinoUtilities.SetActiveLayer(Properties.Settings.Default.ToolHitLayerName, Color.Black);
// Places where cannot cluster punch
for (int k = 0; k < pointMapList[i].YCount; k++)
{
SortedDictionary <int, PunchingPoint> xDict = pointMapList[i].getXDictionary(k);
for (int m = 0; m < xDict.Count; m++)
{
if (xDict.ElementAt(m).Value.HasPunched == false)
{
// Draw the tool
punchingToolList[i].drawTool(xDict.ElementAt(m).Value.Point);
}
}
}
doc.Views.Redraw();
}
}
// Display the open area calculation
AreaMassProperties area = AreaMassProperties.Compute(boundaryCurve);
RhinoApp.WriteLine("Total area: {0} mm^2", area.Area.ToString("#.##"));
double tool0Area = punchingToolList[0].getArea() * tool0Count;
RhinoApp.WriteLine("Tool 1 area: {0} mm^2", tool0Area.ToString("#.##"));
double tool1Area = punchingToolList[1].getArea() * tool1Count;
RhinoApp.WriteLine("Tool 2 area: {0} mm^2", tool1Area.ToString("#.##"));
openArea = (tool0Area + tool1Area) * 100 / area.Area;
RhinoApp.WriteLine("Open area: {0}%", openArea.ToString("#."));
doc.Views.Redraw();
doc.Layers.SetCurrentLayerIndex(currentLayer, true);
return(openArea);
}
