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OpenNest/OpenNest.Api/NestRunner.cs
AJ Isaacs 9db7abcd37 refactor: move material and thickness from Plate to Nest 
Material and thickness are properties of the nest (all plates share the
same material/gauge), not individual plates. This moves them to the Nest
class, removes them from Plate and PlateSettings, and updates the UI so
EditNestInfoForm has a material field while EditPlateForm no longer shows
thickness. The nest file format gains top-level thickness/material fields
with backward-compatible reading from PlateDefaults for old files.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-04-01 21:00:59 -04:00

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using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Threading;
using System.Threading.Tasks;
using OpenNest.Converters;
using OpenNest.Geometry;
using OpenNest.IO;
namespace OpenNest.Api;
public static class NestRunner
{
public static Task<NestResponse> RunAsync(
NestRequest request,
IProgress<NestProgress> progress = null,
CancellationToken token = default)
{
if (request.Parts.Count == 0)
throw new ArgumentException("Request must contain at least one part.", nameof(request));
var sw = Stopwatch.StartNew();
// 1. Import DXFs → Drawings
var drawings = new List<Drawing>();
var importer = new DxfImporter();
foreach (var part in request.Parts)
{
if (!File.Exists(part.DxfPath))
throw new FileNotFoundException($"DXF file not found: {part.DxfPath}", part.DxfPath);
if (!importer.GetGeometry(part.DxfPath, out var geometry) || geometry.Count == 0)
throw new InvalidOperationException($"Failed to import DXF: {part.DxfPath}");
var normalized = ShapeProfile.NormalizeEntities(geometry);
var pgm = ConvertGeometry.ToProgram(normalized);
var name = Path.GetFileNameWithoutExtension(part.DxfPath);
var drawing = new Drawing(name);
drawing.Program = pgm;
drawings.Add(drawing);
}
// 2. Build NestItems
var items = new List<NestItem>();
for (var i = 0; i < request.Parts.Count; i++)
{
var part = request.Parts[i];
items.Add(new NestItem
{
Drawing = drawings[i],
Quantity = part.Quantity,
Priority = part.Priority,
StepAngle = part.AllowRotation ? 0 : OpenNest.Math.Angle.TwoPI,
});
}
// 3. Multi-plate loop
var nest = new Nest();
nest.Thickness = request.Thickness;
nest.Material = new Material(request.Material);
var remaining = items.Select(item => item.Quantity).ToList();
while (remaining.Any(q => q > 0))
{
token.ThrowIfCancellationRequested();
var plate = new Plate(request.SheetSize)
{
PartSpacing = request.Spacing,
};
// Build items for this pass with remaining quantities
var passItems = new List<NestItem>();
for (var i = 0; i < items.Count; i++)
{
if (remaining[i] <= 0) continue;
passItems.Add(new NestItem
{
Drawing = items[i].Drawing,
Quantity = remaining[i],
Priority = items[i].Priority,
StepAngle = items[i].StepAngle,
});
}
// Run engine
var engine = NestEngineRegistry.Create(plate);
var parts = engine.Nest(passItems, progress, token);
if (parts.Count == 0)
break; // No progress — part doesn't fit on fresh sheet
// Add parts to plate and nest
foreach (var p in parts)
plate.Parts.Add(p);
nest.Plates.Add(plate);
// Deduct placed quantities
foreach (var p in parts)
{
var idx = drawings.IndexOf(p.BaseDrawing);
if (idx >= 0)
remaining[idx]--;
}
}
// 4. Compute timing
var timingInfo = Timing.GetTimingInfo(nest);
var cutTime = Timing.CalculateTime(timingInfo, request.Cutting);
sw.Stop();
// 5. Build response
var response = new NestResponse
{
SheetCount = nest.Plates.Count,
Utilization = nest.Plates.Count > 0
? nest.Plates.Average(p => p.Utilization())
: 0,
CutTime = cutTime,
Elapsed = sw.Elapsed,
Nest = nest,
Request = request
};
return Task.FromResult(response);
}
}
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