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OpenNest/OpenNest.IO/Bending/SolidWorksBendDetector.cs
AJ Isaacs 5f74afeda1 feat: add IBendDetector interface, SolidWorks implementation, and registry 
Introduces a pluggable bend detection system in OpenNest.IO.Bending:
- IBendDetector takes CadDocument directly to preserve MText/layer/linetype info
- SolidWorksBendDetector finds lines on BEND layer with CENTER linetype and matches nearby MText notes
- BendDetectorRegistry auto-registers SolidWorks detector and supports AutoDetect

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-03-24 20:26:27 -04:00

140 lines
4.5 KiB
C#
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using ACadSharp;
using ACadSharp.Entities;
using OpenNest.Bending;
using OpenNest.Geometry;
using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;
using System.Text.RegularExpressions;
namespace OpenNest.IO.Bending
{
public class SolidWorksBendDetector : IBendDetector
{
public string Name => "SolidWorks";
public double MaxBendRadius { get; set; } = 4.0;
private static readonly Regex BendNoteRegex = new Regex(
@"\b(?<direction>UP|DOWN|DN)\s+(?<angle>\d+(\.\d+)?)°?\s*R\s*(?<radius>\d+(\.\d+)?)\b",
RegexOptions.Compiled | RegexOptions.IgnoreCase);
public List<Bend> DetectBends(CadDocument document)
{
var bendLines = FindBendLines(document);
var bendNotes = FindBendNotes(document);
if (bendLines.Count == 0)
return new List<Bend>();
var bends = new List<Bend>();
foreach (var line in bendLines)
{
var start = new Vector(line.StartPoint.X, line.StartPoint.Y);
var end = new Vector(line.EndPoint.X, line.EndPoint.Y);
var bend = new Bend
{
StartPoint = start,
EndPoint = end,
Direction = BendDirection.Unknown
};
var note = FindClosestBendNote(line, bendNotes);
if (note != null)
{
bend.Direction = GetBendDirection(note.Value);
bend.NoteText = note.Value;
ParseBendNote(note.Value, bend);
}
if (!bend.Radius.HasValue || bend.Radius.Value <= MaxBendRadius)
bends.Add(bend);
}
return bends;
}
private List<ACadSharp.Entities.Line> FindBendLines(CadDocument document)
{
return document.Entities
.OfType<ACadSharp.Entities.Line>()
.Where(l => l.Layer?.Name == "BEND"
&& (l.LineType?.Name?.Contains("CENTER") == true
|| l.LineType?.Name == "CENTERX2"))
.ToList();
}
private List<MText> FindBendNotes(CadDocument document)
{
return document.Entities
.OfType<MText>()
.Where(t => GetBendDirection(t.Value) != BendDirection.Unknown)
.ToList();
}
private static BendDirection GetBendDirection(string text)
{
if (string.IsNullOrEmpty(text))
return BendDirection.Unknown;
var upper = text.ToUpperInvariant();
if (upper.Contains("UP"))
return BendDirection.Up;
if (upper.Contains("DOWN") || upper.Contains("DN"))
return BendDirection.Down;
return BendDirection.Unknown;
}
private static void ParseBendNote(string text, Bend bend)
{
var normalized = text.ToUpperInvariant().Replace("SHARP", "R0");
var match = BendNoteRegex.Match(normalized);
if (match.Success)
{
if (double.TryParse(match.Groups["radius"].Value, NumberStyles.Any, CultureInfo.InvariantCulture, out var radius))
bend.Radius = radius;
if (double.TryParse(match.Groups["angle"].Value, NumberStyles.Any, CultureInfo.InvariantCulture, out var angle))
bend.Angle = angle;
}
}
private MText FindClosestBendNote(ACadSharp.Entities.Line bendLine, List<MText> notes)
{
if (notes.Count == 0) return null;
MText closest = null;
var closestDist = double.MaxValue;
foreach (var note in notes)
{
var notePos = new Vector(note.InsertPoint.X, note.InsertPoint.Y);
var lineStart = new Vector(bendLine.StartPoint.X, bendLine.StartPoint.Y);
var lineEnd = new Vector(bendLine.EndPoint.X, bendLine.EndPoint.Y);
var geomLine = new OpenNest.Geometry.Line(lineStart, lineEnd);
var perpPoint = geomLine.ClosestPointTo(notePos);
var dist = notePos.DistanceTo(perpPoint);
var maxAcceptable = note.Height * 2.0;
if (dist > maxAcceptable) continue;
if (dist < closestDist)
{
closestDist = dist;
closest = note;
}
}
return closest;
}
}
}
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