using System.Collections.Generic; using OpenNest.Geometry; using OpenNest.Math; namespace OpenNest { public class FillLinear { public FillLinear(Box workArea, double partSpacing) { WorkArea = workArea; PartSpacing = partSpacing; } public Box WorkArea { get; } public double PartSpacing { get; } private static Vector MakeOffset(NestDirection direction, double distance) { return direction == NestDirection.Horizontal ? new Vector(distance, 0) : new Vector(0, distance); } private static PushDirection GetPushDirection(NestDirection direction) { return direction == NestDirection.Horizontal ? PushDirection.Left : PushDirection.Down; } private static double GetDimension(Box box, NestDirection direction) { return direction == NestDirection.Horizontal ? box.Width : box.Height; } private static double GetStart(Box box, NestDirection direction) { return direction == NestDirection.Horizontal ? box.Left : box.Bottom; } private double GetLimit(NestDirection direction) { return direction == NestDirection.Horizontal ? WorkArea.Right : WorkArea.Top; } private static NestDirection PerpendicularAxis(NestDirection direction) { return direction == NestDirection.Horizontal ? NestDirection.Vertical : NestDirection.Horizontal; } ///

/// Computes the slide distance for the push algorithm, returning the /// geometry-aware copy distance along the given axis. ///

private double ComputeCopyDistance(double bboxDim, double slideDistance) { if (slideDistance >= double.MaxValue || slideDistance < 0) return bboxDim + PartSpacing; return bboxDim - slideDistance; } ///

/// Finds the geometry-aware copy distance between two identical parts along an axis. ///

private double FindCopyDistance(Part partA, NestDirection direction) { var bboxDim = GetDimension(partA.BoundingBox, direction); var pushDir = GetPushDirection(direction); var partB = (Part)partA.Clone(); partB.Offset(MakeOffset(direction, bboxDim)); var opposite = Helper.OppositeDirection(pushDir); var movingLines = Helper.GetOffsetPartLines(partB, PartSpacing, pushDir); var stationaryLines = Helper.GetPartLines(partA, opposite); var slideDistance = Helper.DirectionalDistance(movingLines, stationaryLines, pushDir); return ComputeCopyDistance(bboxDim, slideDistance); } ///

/// Finds the geometry-aware copy distance between two identical patterns along an axis. ///

private double FindPatternCopyDistance(Pattern patternA, NestDirection direction) { var bboxDim = GetDimension(patternA.BoundingBox, direction); var pushDir = GetPushDirection(direction); var patternB = patternA.Clone(MakeOffset(direction, bboxDim)); var opposite = Helper.OppositeDirection(pushDir); var movingLines = patternB.GetOffsetLines(PartSpacing, pushDir); var stationaryLines = patternA.GetLines(opposite); var slideDistance = Helper.DirectionalDistance(movingLines, stationaryLines, pushDir); return ComputeCopyDistance(bboxDim, slideDistance); } ///

/// Tiles a pattern along the given axis, returning the cloned parts /// (does not include the original pattern's parts). ///

private List TilePattern(Pattern basePattern, NestDirection direction) { var result = new List(); var copyDistance = FindPatternCopyDistance(basePattern, direction); if (copyDistance <= 0) return result; var dim = GetDimension(basePattern.BoundingBox, direction); var start = GetStart(basePattern.BoundingBox, direction); var limit = GetLimit(direction); var count = 1; while (true) { var nextPos = start + copyDistance * count; if (nextPos + dim > limit + Tolerance.Epsilon) break; var clone = basePattern.Clone(MakeOffset(direction, copyDistance * count)); result.AddRange(clone.Parts); count++; } return result; } ///

/// Fills a single row of identical parts along one axis using geometry-aware spacing. ///

public Pattern FillRow(Drawing drawing, double rotationAngle, NestDirection direction) { var pattern = new Pattern(); var template = new Part(drawing); if (!rotationAngle.IsEqualTo(0)) template.Rotate(rotationAngle); var bbox = template.Program.BoundingBox(); template.Offset(WorkArea.Location - bbox.Location); template.UpdateBounds(); if (template.BoundingBox.Width > WorkArea.Width + Tolerance.Epsilon || template.BoundingBox.Height > WorkArea.Height + Tolerance.Epsilon) return pattern; pattern.Parts.Add(template); var copyDistance = FindCopyDistance(template, direction); if (copyDistance <= 0) { pattern.UpdateBounds(); return pattern; } var dim = GetDimension(template.BoundingBox, direction); var start = GetStart(template.BoundingBox, direction); var limit = GetLimit(direction); var count = 1; while (true) { var nextPos = start + copyDistance * count; if (nextPos + dim > limit + Tolerance.Epsilon) break; var clone = (Part)template.Clone(); clone.Offset(MakeOffset(direction, copyDistance * count)); pattern.Parts.Add(clone); count++; } pattern.UpdateBounds(); return pattern; } ///

/// Fills the work area by tiling a pre-built pattern along both axes. ///

public List Fill(Pattern pattern, NestDirection primaryAxis) { var result = new List(); if (pattern.Parts.Count == 0) return result; var offset = WorkArea.Location - pattern.BoundingBox.Location; var basePattern = pattern.Clone(offset); if (basePattern.BoundingBox.Width > WorkArea.Width + Tolerance.Epsilon || basePattern.BoundingBox.Height > WorkArea.Height + Tolerance.Epsilon) return result; result.AddRange(basePattern.Parts); // Tile along the primary axis. var primaryTiles = TilePattern(basePattern, primaryAxis); result.AddRange(primaryTiles); // Build a full-row pattern for perpendicular tiling. if (primaryTiles.Count > 0) { var rowPattern = new Pattern(); rowPattern.Parts.AddRange(result); rowPattern.UpdateBounds(); basePattern = rowPattern; } // Tile along the perpendicular axis. result.AddRange(TilePattern(basePattern, PerpendicularAxis(primaryAxis))); return result; } ///

/// Fills the work area by creating a row along the primary axis, /// then tiling that row pattern along the perpendicular axis. ///

public List Fill(Drawing drawing, double rotationAngle, NestDirection primaryAxis) { var rowPattern = FillRow(drawing, rotationAngle, primaryAxis); if (rowPattern.Parts.Count == 0) return new List(); var result = new List(rowPattern.Parts); result.AddRange(TilePattern(rowPattern, PerpendicularAxis(primaryAxis))); return result; } } }