package geom import "image" // PolygonContains reports if a polygon contains a point func PolygonContains(polygon []image.Point, p image.Point) bool { for i, q := range polygon { r := polygon[(i+1)%len(polygon)] // ∆(p q r) should have positive signed area q, r = q.Sub(p), r.Sub(p) if q.X*r.Y > r.X*q.Y { return false } } return true } // PolygonRectOverlap reports if a polygon overlaps a rectangle. func PolygonRectOverlap(polygon []image.Point, rect image.Rectangle) bool { if polygon[0].In(rect) { return true } // Check if any vertex of the rect is inside the polygon. if PolygonContains(polygon, rect.Min) { return true } // Reduced Max (to the inclusive bound). rmax := rect.Max.Sub(image.Pt(1, 1)) // Only remaining cases involve line intersection between the rect and poly // having eliminated the possibility that one is entirely within another. // Since rect is an axis-aligned rectangle, we only need vertical and // horizontal line intersection tests. // Walk each edge of polygon. for i, p := range polygon { q := polygon[(i+1)%len(polygon)] // Pretend the edge is a rectangle. Exclude those that don't overlap. if !rect.Overlaps(image.Rectangle{p, q}.Canon()) { continue } d := q.Sub(p) // If the polygon edge is not vertical, test left and right sides if d.X != 0 { if d.X < 0 { d = d.Mul(-1) } min := (rect.Min.Y - p.Y) * d.X max := (rect.Max.Y - p.Y) * d.X // Test left side of rect if t := (rect.Min.X - p.X) * d.Y; min <= t && t < max { return true } // Test right side of rect if t := (rmax.X - p.X) * d.Y; min <= t && t < max { return true } } // If the polygon edge is not horizontal, test the top and bottom sides if d.Y != 0 { if d.Y < 0 { d = d.Mul(-1) } min := (rect.Min.X - p.X) * d.Y max := (rect.Max.X - p.X) * d.Y // Test top side of rect if t := (rect.Min.Y - p.Y) * d.X; min <= t && t < max { return true } // Test bottom side of rect if t := (rmax.Y - p.Y) * d.X; min <= t && t < max { return true } } } return false }