Merge remote-tracking branch 'origin/master' into feature/dxf-import-fixes

# Conflicts: # OpenNest.IO/Dxf.cs
2026-05-23 06:40:01 -04:00
parent 59fec2f98d da77cc9270
commit a801a05e49
7 changed files with 319 additions and 8 deletions
@@ -1,6 +1,9 @@
 using OpenNest.Engine;
 using OpenNest.Converters;
 using OpenNest.Geometry;
 using OpenNest.Math;
 using System.Collections.Generic;
 using System.Linq;
 namespace OpenNest.Engine.BestFit
 {
@@ -54,6 +57,68 @@ namespace OpenNest.Engine.BestFit
            return new List<Part> { part1, part2 };
        }
        public List<Part> BuildCanonicalParts()
        {
            return NormalizeToCutOrigin(BuildParts(Candidate.Drawing));
        }
        public List<Part> BuildSourceParts(Drawing drawing)
        {
            var parts = BuildCanonicalParts();
            var sourceAngle = drawing?.Source?.Angle ?? 0.0;
            for (var i = 0; i < parts.Count; i++)
            {
                var p = parts[i];
                var rebound = Part.CreateAtOrigin(drawing, p.Rotation);
                var delta = p.BoundingBox.Location - rebound.BoundingBox.Location;
                rebound.Offset(delta);
                rebound.UpdateBounds();
                parts[i] = rebound;
            }
            return NormalizeToCutOrigin(CanonicalFrame.FromCanonical(parts, sourceAngle));
        }
        public Box GetCutBounds(List<Part> parts)
        {
            return GetCutBoundingBox(parts);
        }
        private static List<Part> NormalizeToCutOrigin(List<Part> parts)
        {
            if (parts == null || parts.Count == 0)
                return parts;
            var bounds = GetCutBoundingBox(parts);
            var offset = new Vector(-bounds.Left, -bounds.Bottom);
            foreach (var part in parts)
                part.Offset(offset);
            return parts;
        }
        private static Box GetCutBoundingBox(List<Part> parts)
        {
            var entities = new List<IBoundable>();
            foreach (var part in parts)
            {
                var partEntities = ConvertProgram.ToGeometry(part.Program)
                    .Where(e => e.Layer != SpecialLayers.Rapid)
                    .ToList();
                foreach (var entity in partEntities)
                {
                    entity.Offset(part.Location);
                    entities.Add(entity);
                }
            }
            return entities.GetBoundingBox();
        }
    }
    public enum BestFitSortField
@@ -1,6 +1,7 @@
 using OpenNest.Geometry;
 using System.Collections.Generic;
 using System.Linq;
 using OpenNest.Math;
 namespace OpenNest.Engine.Fill
 {
@@ -14,7 +15,7 @@ namespace OpenNest.Engine.Fill
        public static double Push(List<Part> movingParts, Plate plate, PushDirection direction)
        {
            var obstacleParts = plate.Parts
-                .Where(p => !movingParts.Contains(p))
+                .Where(p => !movingParts.Contains(p) && !IntersectsAny(p, movingParts))
                .ToList();
            return Push(movingParts, obstacleParts, plate.WorkArea(), plate.PartSpacing, direction);
@@ -26,7 +27,7 @@ namespace OpenNest.Engine.Fill
        public static double Push(List<Part> movingParts, Plate plate, double angle)
        {
            var obstacleParts = plate.Parts
-                .Where(p => !movingParts.Contains(p))
+                .Where(p => !movingParts.Contains(p) && !IntersectsAny(p, movingParts))
                .ToList();
            var direction = new Vector(System.Math.Cos(angle), System.Math.Sin(angle));
@@ -99,6 +100,13 @@ namespace OpenNest.Engine.Fill
                        : PartGeometry.GetPerimeterEntities(obstacleParts[i]);
                    var d = SpatialQuery.DirectionalDistance(movingEntities, obstacleEntities[i], direction);
                    if (d <= Tolerance.Epsilon
                        && partSpacing <= Tolerance.Epsilon
                        && CanNudgeWithoutOverlap(moving, obstacleParts[i], direction))
                    {
                        continue;
                    }
                    if (d < distance)
                        distance = d;
                }
@@ -115,6 +123,31 @@ namespace OpenNest.Engine.Fill
            return 0;
        }
        private static bool IntersectsAny(Part candidate, List<Part> parts)
        {
            for (var i = 0; i < parts.Count; i++)
            {
                if (candidate.Intersects(parts[i], out _))
                    return true;
            }
            return false;
        }
        private static bool CanNudgeWithoutOverlap(Part moving, Part obstacle, Vector direction)
        {
            var nudge = direction * (Tolerance.Epsilon * 10);
            moving.Offset(nudge);
            try
            {
                return !moving.Intersects(obstacle, out _);
            }
            finally
            {
                moving.Offset(-nudge);
            }
        }
        public static double Push(List<Part> movingParts, List<Part> obstacleParts,
            Box workArea, double partSpacing, PushDirection direction)
        {
@@ -130,7 +163,7 @@ namespace OpenNest.Engine.Fill
        public static double PushBoundingBox(List<Part> movingParts, Plate plate, PushDirection direction)
        {
            var obstacleParts = plate.Parts
-                .Where(p => !movingParts.Contains(p))
+                .Where(p => !movingParts.Contains(p) && !IntersectsAny(p, movingParts))
                .ToList();
            return PushBoundingBox(movingParts, obstacleParts, plate.WorkArea(), plate.PartSpacing, direction);
@@ -65,6 +65,36 @@ namespace OpenNest.IO
            }
        }
        public static List<Entity> GetGeometry(string path, Func<string, bool> layerFilter)
        {
            try
            {
                using var reader = new DxfReader(path);
                var doc = reader.Read();
                return ConvertEntities(doc, layerFilter);
            }
            catch (Exception ex)
            {
                Debug.WriteLine(ex.Message);
                return new List<Entity>();
            }
        }
        public static List<Entity> GetGeometry(Stream stream, Func<string, bool> layerFilter)
        {
            try
            {
                using var reader = new DxfReader(stream);
                var doc = reader.Read();
                return ConvertEntities(doc, layerFilter);
            }
            catch (Exception ex)
            {
                Debug.WriteLine(ex.Message);
                return new List<Entity>();
            }
        }
        #endregion
        #region Export
@@ -128,16 +158,17 @@ namespace OpenNest.IO
            }
        }
-        private static List<Entity> ConvertEntities(CadDocument doc)
+        private static List<Entity> ConvertEntities(CadDocument doc, Func<string, bool> layerFilter = null)
        {
            var entities = new List<Entity>();
            var lines = new List<Line>();
            var arcs = new List<Arc>();
            var circles = new List<Circle>();
            var filter = layerFilter ?? IsNonCutLayer;
            foreach (var entity in doc.Entities)
            {
-                if (IsNonCutLayer(entity.Layer?.Name))
+                if (filter(entity.Layer?.Name))
                    continue;
                switch (entity)
@@ -0,0 +1,72 @@
 using OpenNest.Engine;
 using OpenNest.Engine.BestFit;
 using OpenNest.Geometry;
 using OpenNest.Math;
 using OpenNest.Shapes;
 namespace OpenNest.Tests.BestFit;
 public class BestFitResultFrameTests
 {
    [Fact]
    public void BuildCanonicalParts_NonAxisAlignedPairNormalizesActualBounds()
    {
        var drawing = new TShape { Width = 10, Height = 8 }.GetDrawing();
        var canonical = CanonicalFrame.AsCanonicalCopy(drawing);
        var result = EvaluateOffsetPair(canonical, new Vector(40, 30));
        Assert.True(IsNonAxisAligned(result.OptimalRotation),
            $"Expected a non-axis-aligned result, got {Angle.ToDegrees(result.OptimalRotation):F2} degrees.");
        var parts = result.BuildCanonicalParts();
        var bounds = result.GetCutBounds(parts);
        Assert.Equal(0, bounds.Left, 3);
        Assert.Equal(0, bounds.Bottom, 3);
        Assert.Equal(result.BoundingWidth, bounds.Length, 2);
        Assert.Equal(result.BoundingHeight, bounds.Width, 2);
    }
    [Fact]
    public void BuildSourceParts_RebindsCanonicalResultToRotatedSourceDrawing()
    {
        var drawing = new TShape { Width = 10, Height = 8 }.GetDrawing();
        drawing.Program.Rotate(Angle.ToRadians(30), drawing.Program.BoundingBox().Center);
        drawing.RecomputeCanonicalAngle();
        var canonical = CanonicalFrame.AsCanonicalCopy(drawing);
        var result = EvaluateOffsetPair(canonical, new Vector(40, 30));
        var parts = result.BuildSourceParts(drawing);
        var bounds = result.GetCutBounds(parts);
        Assert.All(parts, p => Assert.Same(drawing, p.BaseDrawing));
        Assert.Equal(0, bounds.Left, 3);
        Assert.Equal(0, bounds.Bottom, 3);
        Assert.False(parts[0].Intersects(parts[1], out _));
    }
    private static BestFitResult EvaluateOffsetPair(Drawing drawing, Vector offset)
    {
        var candidate = new PairCandidate
        {
            Drawing = drawing,
            Part1Rotation = 0,
            Part2Rotation = System.Math.PI,
            Part2Offset = offset,
            Spacing = 0.25
        };
        return new PairEvaluator().Evaluate(candidate);
    }
    private static bool IsNonAxisAligned(double angle)
    {
        var normalized = Angle.NormalizeRad(angle);
        var nearestQuadrant = Angle.HalfPI * System.Math.Round(normalized / Angle.HalfPI);
        var delta = System.Math.Abs(normalized - nearestQuadrant);
        delta = System.Math.Min(delta, Angle.HalfPI - delta);
        return delta > Angle.ToRadians(1);
    }
 }
@@ -97,6 +97,33 @@ namespace OpenNest.Tests.Fill
            return part;
        }
        private static Drawing MakeTriangleDrawing(params Vector[] points)
        {
            var pgm = new OpenNest.CNC.Program();
            pgm.Codes.Add(new OpenNest.CNC.RapidMove(points[0]));
            for (var i = 1; i < points.Length; i++)
                pgm.Codes.Add(new OpenNest.CNC.LinearMove(points[i]));
            pgm.Codes.Add(new OpenNest.CNC.LinearMove(points[0]));
            return new Drawing("triangle", pgm);
        }
        private static Part MakeTrianglePart(params Vector[] points)
        {
            var part = new Part(MakeTriangleDrawing(points));
            part.UpdateBounds();
            return part;
        }
        private static Part MakeTrianglePart(double x, double y, params Vector[] points)
        {
            var part = MakeTrianglePart(points);
            part.Location = new Vector(x, y);
            part.UpdateBounds();
            return part;
        }
        [Fact]
        public void Push_Left_MovesPartTowardEdge()
        {
@@ -171,6 +198,86 @@ namespace OpenNest.Tests.Fill
            Assert.NotEqual(distNoSpacing, distWithSpacing);
        }
        [Fact]
        public void Push_Up_AllowsSharedDiagonalEdgeToSeparate()
        {
            var workArea = new Box(0, 0, 20, 20);
            var obstacle = MakeTrianglePart(
                new Vector(0, 0),
                new Vector(10, 0),
                new Vector(0, 10));
            var movingPart = MakeTrianglePart(
                new Vector(0, 10),
                new Vector(10, 0),
                new Vector(10, 10));
            var distance = Compactor.Push(
                new List<Part> { movingPart },
                new List<Part> { obstacle },
                workArea,
                0,
                PushDirection.Up);
            Assert.True(distance > 0);
            Assert.True(movingPart.BoundingBox.Top > 19.9);
            Assert.False(movingPart.Intersects(obstacle, out _));
        }
        [Fact]
        public void Push_Up_MovesAfterRightTriangleIsPushedLeftIntoSharedEdge()
        {
            var workArea = new Box(0, 0, 24, 24);
            var leftTriangle = MakeTrianglePart(
                2, 2,
                new Vector(0, 0),
                new Vector(8, 0),
                new Vector(4, 10));
            var rightTriangle = MakeTrianglePart(
                14, 4,
                new Vector(0, 10),
                new Vector(8, 10),
                new Vector(4, 0));
            var moving = new List<Part> { rightTriangle };
            var obstacles = new List<Part> { leftTriangle };
            var leftDistance = Compactor.Push(moving, obstacles, workArea, 0, PushDirection.Left);
            var yBeforePushUp = rightTriangle.Location.Y;
            var bottomBeforePushUp = rightTriangle.BoundingBox.Bottom;
            var upDistance = Compactor.Push(moving, obstacles, workArea, 0, PushDirection.Up);
            Assert.True(leftDistance > 0);
            Assert.True(upDistance > 0);
            Assert.True(rightTriangle.Location.Y > yBeforePushUp);
            Assert.True(rightTriangle.BoundingBox.Bottom > bottomBeforePushUp);
            Assert.False(rightTriangle.Intersects(leftTriangle, out _));
        }
        [Fact]
        public void Push_Left_BlocksWhenSharedDiagonalEdgeWouldOverlap()
        {
            var workArea = new Box(0, 0, 20, 20);
            var obstacle = MakeTrianglePart(
                new Vector(0, 0),
                new Vector(10, 0),
                new Vector(0, 10));
            var movingPart = MakeTrianglePart(
                new Vector(0, 10),
                new Vector(10, 0),
                new Vector(10, 10));
            var distance = Compactor.Push(
                new List<Part> { movingPart },
                new List<Part> { obstacle },
                workArea,
                0,
                PushDirection.Left);
            Assert.Equal(0, distance);
            Assert.Equal(0, movingPart.BoundingBox.Left);
        }
        [Fact]
        public void Push_AngleLeft_MovesPartTowardEdge()
        {
@@ -45,6 +45,7 @@ namespace OpenNest.Forms
        public BestFitResult SelectedResult { get; private set; }
        public Drawing SelectedDrawing => activeDrawing;
        public List<Part> SelectedParts { get; private set; }
        public BestFitViewerForm(DrawingCollection drawings, Plate plate, Units units = Units.Inches)
        {
@@ -318,12 +319,12 @@ namespace OpenNest.Forms
            var cell = new BestFitCell(colorScheme);
            cell.PartColor = partColor;
            cell.Dock = DockStyle.Fill;
            var parts = result.BuildCanonicalParts();
            cell.Plate.Size = new Geometry.Size(
                result.BoundingHeight,
                result.BoundingWidth);
            var parts = result.BuildParts(drawing);
            foreach (var part in parts)
                cell.Plate.Parts.Add(part);
@@ -332,6 +333,7 @@ namespace OpenNest.Forms
            cell.DoubleClick += (sender, e) =>
            {
                SelectedResult = result;
                SelectedParts = result.BuildSourceParts(drawing);
                DialogResult = DialogResult.OK;
                Close();
            };
@@ -686,7 +686,8 @@ namespace OpenNest.Forms
            {
                if (form.ShowDialog(this) == DialogResult.OK && form.SelectedResult != null)
                {
-                    var parts = form.SelectedResult.BuildParts(form.SelectedDrawing);
+                    var parts = form.SelectedParts
                        ?? form.SelectedResult.BuildSourceParts(form.SelectedDrawing);
                    activeForm.PlateView.SetAction(typeof(ActionClone), parts);
                }
            }