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OpenNest/OpenNest.Engine/LeadInAssigner.cs
AJ Isaacs 6a30828fad feat: optimize external lead-in placement using next-part pierce points 
External lead-ins now sit on the line between the last internal cutout
and the next part's first pierce point, minimizing rapid travel. Cutout
sequencing starts from the bounding box corner opposite the origin and
iterates 3 times to converge the perimeter lead-in and internal sequence.
LeadInAssigner and PlateProcessor both use a two-pass approach: first
pass collects pierce points, second pass refines with next-part knowledge.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-04-09 10:33:55 -04:00

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2.5 KiB
C#
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using OpenNest.CNC.CuttingStrategy;
using OpenNest.Engine.Sequencing;
using OpenNest.Geometry;
using System.Collections.Generic;
using System.Linq;
namespace OpenNest.Engine
{
public class LeadInAssigner
{
public IPartSequencer Sequencer { get; set; }
public void Assign(Plate plate)
{
var parameters = plate.CuttingParameters;
if (parameters == null)
return;
var sequenced = Sequencer.Sequence(plate.Parts.ToList(), plate);
var exitPoint = PlateHelper.GetExitPoint(plate);
// Pass 1: assign lead-ins to establish pierce points
var piercePoints = AssignPass(sequenced, parameters, exitPoint, nextPiercePoints: null);
// Pass 2: re-assign with knowledge of next part's start point
AssignPass(sequenced, parameters, exitPoint, nextPiercePoints: piercePoints);
}
private Vector[] AssignPass(List<SequencedPart> sequenced, CuttingParameters parameters,
Vector exitPoint, Vector[] nextPiercePoints)
{
var piercePoints = new Vector[sequenced.Count];
var currentPoint = exitPoint;
for (var i = 0; i < sequenced.Count; i++)
{
var part = sequenced[i].Part;
if (part.LeadInsLocked)
{
piercePoints[i] = GetPiercePoint(part);
currentPoint = part.Location;
continue;
}
if (part.HasManualLeadIns)
part.RemoveLeadIns();
var localApproach = currentPoint - part.Location;
if (nextPiercePoints != null && i + 1 < sequenced.Count)
{
var nextStart = nextPiercePoints[i + 1] - part.Location;
part.ApplyLeadIns(parameters, localApproach, nextStart);
}
else
{
part.ApplyLeadIns(parameters, localApproach);
}
piercePoints[i] = GetPiercePoint(part);
currentPoint = part.Location;
}
return piercePoints;
}
private static Vector GetPiercePoint(Part part)
{
foreach (var code in part.Program.Codes)
{
if (code is CNC.Motion motion)
return motion.EndPoint + part.Location;
}
return part.Location;
}
}
}
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