AJ Isaacs
cc286dd9b7
Move DxfImporter, DxfExporter, NestReader, NestWriter, ProgramReader, and Extensions into a new OpenNest.IO class library. The WinForms project now references OpenNest.IO instead of ACadSharp directly. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
301 lines
8.7 KiB
C#
301 lines
8.7 KiB
C#
using System;
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using System.Diagnostics;
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using System.IO;
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using ACadSharp;
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using ACadSharp.Entities;
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using ACadSharp.IO;
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using ACadSharp.Tables;
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using CSMath;
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using OpenNest.CNC;
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using OpenNest.Math;
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namespace OpenNest.IO
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{
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using AcadArc = ACadSharp.Entities.Arc;
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using AcadCircle = ACadSharp.Entities.Circle;
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using AcadLine = ACadSharp.Entities.Line;
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using Layer = ACadSharp.Tables.Layer;
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public class DxfExporter
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{
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private CadDocument doc;
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private XYZ curpos;
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private Mode mode;
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private readonly Layer cutLayer;
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private readonly Layer rapidLayer;
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private readonly Layer plateLayer;
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public DxfExporter()
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{
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doc = new CadDocument();
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cutLayer = new Layer("Cut");
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cutLayer.Color = new Color(1);
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rapidLayer = new Layer("Rapid");
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rapidLayer.Color = new Color(5);
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plateLayer = new Layer("Plate");
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plateLayer.Color = new Color(4);
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}
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public void ExportProgram(Program program, Stream stream)
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{
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doc = new CadDocument();
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EnsureLayers();
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AddProgram(program);
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using (var writer = new DxfWriter(stream, doc, false))
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{
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writer.Write();
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}
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}
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public bool ExportProgram(Program program, string path)
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{
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Stream stream = null;
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var success = false;
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try
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{
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stream = File.Create(path);
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ExportProgram(program, stream);
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success = true;
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}
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catch
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{
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Debug.Fail("DxfExporter.ExportProgram failed to write program to file: " + path);
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}
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finally
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{
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if (stream != null)
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stream.Close();
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}
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return success;
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}
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public void ExportPlate(Plate plate, Stream stream)
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{
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doc = new CadDocument();
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EnsureLayers();
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AddPlateOutline(plate);
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foreach (var part in plate.Parts)
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{
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var endpt = part.Location.ToAcadXYZ();
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AddLine(curpos, endpt, rapidLayer);
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curpos = part.Location.ToAcadXYZ();
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AddProgram(part.Program);
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}
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using (var writer = new DxfWriter(stream, doc, false))
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{
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writer.Write();
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}
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}
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public bool ExportPlate(Plate plate, string path)
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{
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Stream stream = null;
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var success = false;
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try
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{
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stream = File.Create(path);
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ExportPlate(plate, stream);
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success = true;
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}
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catch
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{
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Debug.Fail("DxfExporter.ExportPlate failed to write plate to file: " + path);
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}
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finally
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{
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if (stream != null)
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stream.Close();
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}
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return success;
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}
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private void EnsureLayers()
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{
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doc.Layers.Add(cutLayer);
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doc.Layers.Add(rapidLayer);
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doc.Layers.Add(plateLayer);
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}
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private void AddLine(XYZ start, XYZ end, Layer layer)
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{
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var ln = new AcadLine();
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ln.StartPoint = start;
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ln.EndPoint = end;
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ln.Layer = layer;
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doc.Entities.Add(ln);
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}
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private void AddPlateOutline(Plate plate)
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{
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XYZ pt1;
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XYZ pt2;
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XYZ pt3;
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XYZ pt4;
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switch (plate.Quadrant)
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{
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case 1:
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pt1 = new XYZ(0, 0, 0);
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pt2 = new XYZ(0, plate.Size.Height, 0);
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pt3 = new XYZ(plate.Size.Width, plate.Size.Height, 0);
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pt4 = new XYZ(plate.Size.Width, 0, 0);
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break;
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case 2:
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pt1 = new XYZ(0, 0, 0);
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pt2 = new XYZ(0, plate.Size.Height, 0);
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pt3 = new XYZ(-plate.Size.Width, plate.Size.Height, 0);
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pt4 = new XYZ(-plate.Size.Width, 0, 0);
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break;
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case 3:
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pt1 = new XYZ(0, 0, 0);
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pt2 = new XYZ(0, -plate.Size.Height, 0);
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pt3 = new XYZ(-plate.Size.Width, -plate.Size.Height, 0);
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pt4 = new XYZ(-plate.Size.Width, 0, 0);
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break;
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case 4:
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pt1 = new XYZ(0, 0, 0);
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pt2 = new XYZ(0, -plate.Size.Height, 0);
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pt3 = new XYZ(plate.Size.Width, -plate.Size.Height, 0);
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pt4 = new XYZ(plate.Size.Width, 0, 0);
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break;
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default:
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return;
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}
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AddLine(pt1, pt2, plateLayer);
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AddLine(pt2, pt3, plateLayer);
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AddLine(pt3, pt4, plateLayer);
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AddLine(pt4, pt1, plateLayer);
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var m1 = new XYZ(pt1.X + plate.EdgeSpacing.Left, pt1.Y + plate.EdgeSpacing.Bottom, 0);
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var m2 = new XYZ(m1.X, pt2.Y - plate.EdgeSpacing.Top, 0);
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var m3 = new XYZ(pt3.X - plate.EdgeSpacing.Right, m2.Y, 0);
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var m4 = new XYZ(m3.X, m1.Y, 0);
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AddLine(m1, m2, plateLayer);
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AddLine(m2, m3, plateLayer);
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AddLine(m3, m4, plateLayer);
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AddLine(m4, m1, plateLayer);
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}
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private void AddProgram(Program program)
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{
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mode = program.Mode;
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for (var i = 0; i < program.Length; ++i)
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{
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var code = program[i];
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switch (code.Type)
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{
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case CodeType.ArcMove:
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var arc = (ArcMove)code;
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AddArcMove(arc);
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break;
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case CodeType.LinearMove:
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var line = (LinearMove)code;
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AddLinearMove(line);
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break;
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case CodeType.RapidMove:
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var rapid = (RapidMove)code;
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AddRapidMove(rapid);
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break;
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case CodeType.SubProgramCall:
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var tmpmode = mode;
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var subpgm = (CNC.SubProgramCall)code;
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AddProgram(subpgm.Program);
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mode = tmpmode;
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break;
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}
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}
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}
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private void AddLinearMove(LinearMove line)
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{
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var pt = line.EndPoint.ToAcadXYZ();
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if (mode == Mode.Incremental)
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pt = new XYZ(pt.X + curpos.X, pt.Y + curpos.Y, 0);
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AddLine(curpos, pt, cutLayer);
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curpos = pt;
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}
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private void AddRapidMove(RapidMove rapid)
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{
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var pt = rapid.EndPoint.ToAcadXYZ();
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if (mode == Mode.Incremental)
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pt = new XYZ(pt.X + curpos.X, pt.Y + curpos.Y, 0);
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AddLine(curpos, pt, rapidLayer);
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curpos = pt;
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}
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private void AddArcMove(ArcMove arc)
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{
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var center = arc.CenterPoint.ToAcadXYZ();
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var endpt = arc.EndPoint.ToAcadXYZ();
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if (mode == Mode.Incremental)
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{
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endpt = new XYZ(endpt.X + curpos.X, endpt.Y + curpos.Y, 0);
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center = new XYZ(center.X + curpos.X, center.Y + curpos.Y, 0);
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}
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var startAngle = System.Math.Atan2(
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curpos.Y - center.Y,
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curpos.X - center.X);
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var endAngle = System.Math.Atan2(
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endpt.Y - center.Y,
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endpt.X - center.X);
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if (arc.Rotation == OpenNest.RotationType.CW)
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Generic.Swap(ref startAngle, ref endAngle);
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var dx = endpt.X - center.X;
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var dy = endpt.Y - center.Y;
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var radius = System.Math.Sqrt(dx * dx + dy * dy);
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if (startAngle.IsEqualTo(endAngle))
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{
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var circle = new AcadCircle();
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circle.Center = center;
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circle.Radius = radius;
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circle.Layer = cutLayer;
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doc.Entities.Add(circle);
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}
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else
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{
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var arc2 = new AcadArc();
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arc2.Center = center;
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arc2.Radius = radius;
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arc2.StartAngle = startAngle;
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arc2.EndAngle = endAngle;
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arc2.Layer = cutLayer;
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doc.Entities.Add(arc2);
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}
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curpos = endpt;
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}
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}
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}
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