// Copyright 2018 Joshua J Baker. All rights reserved. // Use of this source code is governed by an MIT-style // license that can be found in the LICENSE file. package geometry // Poly ... type Poly struct { Exterior Ring Holes []Ring } // NewPoly ... func NewPoly(exterior []Point, holes [][]Point, opts *IndexOptions) *Poly { poly := new(Poly) poly.Exterior = newRing(exterior, opts) if len(holes) > 0 { poly.Holes = make([]Ring, len(holes)) for i := range holes { poly.Holes[i] = newRing(holes[i], opts) } } return poly } // Clockwise ... func (poly *Poly) Clockwise() bool { if poly == nil || poly.Exterior == nil { return false } return poly.Exterior.Clockwise() } // Empty ... func (poly *Poly) Empty() bool { if poly == nil || poly.Exterior == nil { return true } return poly.Exterior.Empty() } // Rect ... func (poly *Poly) Rect() Rect { if poly == nil || poly.Exterior == nil { return Rect{} } return poly.Exterior.Rect() } // Move the polygon by delta. Returns a new polygon func (poly *Poly) Move(deltaX, deltaY float64) *Poly { if poly == nil { return nil } if poly.Exterior == nil { return new(Poly) } npoly := new(Poly) if series, ok := poly.Exterior.(*baseSeries); ok { npoly.Exterior = Ring(series.Move(deltaX, deltaY)) } else { nseries := makeSeries( seriesCopyPoints(poly.Exterior), false, true, DefaultIndexOptions) npoly.Exterior = Ring(nseries.Move(deltaX, deltaY)) } if len(poly.Holes) > 0 { npoly.Holes = make([]Ring, len(poly.Holes)) for i, hole := range poly.Holes { if series, ok := hole.(*baseSeries); ok { npoly.Holes[i] = Ring(series.Move(deltaX, deltaY)) } else { nseries := makeSeries( seriesCopyPoints(hole), false, true, DefaultIndexOptions) npoly.Holes[i] = Ring(nseries.Move(deltaX, deltaY)) } } } return npoly } // ContainsPoint ... func (poly *Poly) ContainsPoint(point Point) bool { if poly == nil || poly.Exterior == nil { return false } if !ringContainsPoint(poly.Exterior, point, true).hit { return false } contains := true for _, hole := range poly.Holes { if ringContainsPoint(hole, point, false).hit { contains = false break } } return contains } // IntersectsPoint ... func (poly *Poly) IntersectsPoint(point Point) bool { if poly == nil { return false } return poly.ContainsPoint(point) } // ContainsRect ... func (poly *Poly) ContainsRect(rect Rect) bool { if poly == nil { return false } // convert rect into a polygon return poly.ContainsPoly(&Poly{Exterior: rect}) } // IntersectsRect ... func (poly *Poly) IntersectsRect(rect Rect) bool { if poly == nil { return false } // convert rect into a polygon return poly.IntersectsPoly(&Poly{Exterior: rect}) } // ContainsLine ... func (poly *Poly) ContainsLine(line *Line) bool { if poly == nil || poly.Exterior == nil || line == nil { return false } if !ringContainsLine(poly.Exterior, line, true) { return false } for _, polyHole := range poly.Holes { if ringIntersectsLine(polyHole, line, false) { return false } } return true } // IntersectsLine ... func (poly *Poly) IntersectsLine(line *Line) bool { if poly == nil || poly.Exterior == nil || line == nil { return false } return ringIntersectsLine(poly.Exterior, line, true) } // ContainsPoly ... func (poly *Poly) ContainsPoly(other *Poly) bool { if poly == nil || poly.Exterior == nil || other == nil || other.Exterior == nil { return false } // 1) other exterior must be fully contained inside of the poly exterior. if !ringContainsRing(poly.Exterior, other.Exterior, true) { return false } // 2) ring cannot intersect poly holes contains := true for _, polyHole := range poly.Holes { if ringIntersectsRing(polyHole, other.Exterior, false) { contains = false // 3) unless the poly hole is contain inside of a other hole for _, otherHole := range other.Holes { if ringContainsRing(otherHole, polyHole, true) { contains = true // println(4) break } } if !contains { break } } } return contains } // IntersectsPoly ... func (poly *Poly) IntersectsPoly(other *Poly) bool { if poly == nil || poly.Exterior == nil || other == nil || other.Exterior == nil { return false } if !ringIntersectsRing(other.Exterior, poly.Exterior, true) { return false } for _, hole := range poly.Holes { if ringContainsRing(hole, other.Exterior, false) { return false } } for _, hole := range other.Holes { if ringContainsRing(hole, poly.Exterior, false) { return false } } return true }