tile38/vendor/github.com/tidwall/geojson/geometry/rect.go

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// 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
// Rect ...
type Rect struct {
Min, Max Point
}
// Move ...
func (rect Rect) Move(deltaX, deltaY float64) Rect {
return Rect{
Min: Point{X: rect.Min.X + deltaX, Y: rect.Min.Y + deltaY},
Max: Point{X: rect.Max.X + deltaX, Y: rect.Max.Y + deltaY},
}
}
// Index ...
func (rect Rect) Index() interface{} {
return nil
}
// Clockwise ...
func (rect Rect) Clockwise() bool {
return false
}
// Center ...
func (rect Rect) Center() Point {
return Point{(rect.Max.X + rect.Min.X) / 2, (rect.Max.Y + rect.Min.Y) / 2}
}
// Area ...
func (rect Rect) Area() float64 {
return (rect.Max.X - rect.Min.X) * (rect.Max.Y - rect.Min.Y)
}
// NumPoints ...
func (rect Rect) NumPoints() int {
return 5
}
// NumSegments ...
func (rect Rect) NumSegments() int {
return 4
}
// PointAt ...
func (rect Rect) PointAt(index int) Point {
switch index {
default:
return []Point{}[0]
case 0:
return Point{rect.Min.X, rect.Min.Y}
case 1:
return Point{rect.Max.X, rect.Min.Y}
case 2:
return Point{rect.Max.X, rect.Max.Y}
case 3:
return Point{rect.Min.X, rect.Max.Y}
case 4:
return Point{rect.Min.X, rect.Min.Y}
}
}
// SegmentAt ...
func (rect Rect) SegmentAt(index int) Segment {
switch index {
default:
return []Segment{}[0]
case 0:
return Segment{
Point{rect.Min.X, rect.Min.Y},
Point{rect.Max.X, rect.Min.Y},
}
case 1:
return Segment{
Point{rect.Max.X, rect.Min.Y},
Point{rect.Max.X, rect.Max.Y},
}
case 2:
return Segment{
Point{rect.Max.X, rect.Max.Y},
Point{rect.Min.X, rect.Max.Y},
}
case 3:
return Segment{
Point{rect.Min.X, rect.Max.Y},
Point{rect.Min.X, rect.Min.Y},
}
}
}
// Search ...
func (rect Rect) Search(target Rect, iter func(seg Segment, idx int) bool) {
var idx int
rectNumSegments := rect.NumSegments()
for i := 0; i < rectNumSegments; i++ {
seg := rect.SegmentAt(i)
if seg.Rect().IntersectsRect(target) {
if !iter(seg, idx) {
break
}
}
idx++
}
}
// Empty ...
func (rect Rect) Empty() bool {
return false
}
// Valid ...
func (rect Rect) Valid() bool {
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return rect.Min.Valid() && rect.Max.Valid()
}
// Rect ...
func (rect Rect) Rect() Rect {
return rect
}
// Convex ...
func (rect Rect) Convex() bool {
return true
}
// ContainsPoint ...
func (rect Rect) ContainsPoint(point Point) bool {
return point.X >= rect.Min.X && point.X <= rect.Max.X &&
point.Y >= rect.Min.Y && point.Y <= rect.Max.Y
}
// IntersectsPoint ...
func (rect Rect) IntersectsPoint(point Point) bool {
return rect.ContainsPoint(point)
}
// ContainsRect ...
func (rect Rect) ContainsRect(other Rect) bool {
if other.Min.X < rect.Min.X || other.Max.X > rect.Max.X {
return false
}
if other.Min.Y < rect.Min.Y || other.Max.Y > rect.Max.Y {
return false
}
return true
}
// IntersectsRect ...
func (rect Rect) IntersectsRect(other Rect) bool {
if rect.Min.Y > other.Max.Y || rect.Max.Y < other.Min.Y {
return false
}
if rect.Min.X > other.Max.X || rect.Max.X < other.Min.X {
return false
}
return true
}
// ContainsLine ...
func (rect Rect) ContainsLine(line *Line) bool {
if line == nil {
return false
}
return !line.Empty() && rect.ContainsRect(line.Rect())
}
// IntersectsLine ...
func (rect Rect) IntersectsLine(line *Line) bool {
if line == nil {
return false
}
return ringIntersectsLine(rect, line, true)
}
// ContainsPoly ...
func (rect Rect) ContainsPoly(poly *Poly) bool {
if poly == nil {
return false
}
return !poly.Empty() && rect.ContainsRect(poly.Rect())
}
// IntersectsPoly ...
func (rect Rect) IntersectsPoly(poly *Poly) bool {
if poly == nil {
return false
}
return poly.IntersectsRect(rect)
}