tile38/internal/buffer/buffer.go

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package buffer
import (
"errors"
"math"
"github.com/tidwall/geojson"
"github.com/tidwall/geojson/geo"
"github.com/tidwall/geojson/geometry"
"github.com/tidwall/gjson"
)
// TODO: detect of pole and antimeridian crossing and generate
// valid multigeometries
const bufferSteps = 15
// Simple performs a very simple buffer operation on a geojson object.
func Simple(g geojson.Object, meters float64) (geojson.Object, error) {
if meters <= 0 {
return g, nil
}
if math.IsInf(meters, 0) || math.IsNaN(meters) {
return g, errors.New("invalid meters")
}
switch g := g.(type) {
case *geojson.Point:
return bufferSimplePoint(g.Base(), meters), nil
case *geojson.SimplePoint:
return bufferSimplePoint(g.Base(), meters), nil
case *geojson.MultiPoint:
return bufferSimpleGeometries(g.Base(), meters)
case *geojson.LineString:
return bufferSimpleLineString(g, meters)
case *geojson.MultiLineString:
return bufferSimpleGeometries(g.Base(), meters)
case *geojson.Polygon:
return bufferSimplePolygon(g, meters)
case *geojson.MultiPolygon:
return bufferSimpleGeometries(g.Base(), meters)
case *geojson.FeatureCollection:
return bufferSimpleFeatures(g.Base(), meters)
case *geojson.Feature:
bg, err := Simple(g.Base(), meters)
if err != nil {
return nil, err
}
return geojson.NewFeature(bg, g.Members()), nil
case *geojson.Circle:
return Simple(g.Primative(), meters)
case nil:
return nil, errors.New("cannot buffer nil object")
default:
typ := gjson.Get(g.JSON(), "type").String()
return nil, errors.New("cannot buffer " + typ + " type")
}
}
func bufferSimplePoint(p geometry.Point, meters float64) *geojson.Polygon {
meters = geo.NormalizeDistance(meters)
points := make([]geometry.Point, 0, bufferSteps+1)
// calc the four corners
maxY, _ := geo.DestinationPoint(p.Y, p.X, meters, 0)
_, maxX := geo.DestinationPoint(p.Y, p.X, meters, 90)
minY, _ := geo.DestinationPoint(p.Y, p.X, meters, 180)
_, minX := geo.DestinationPoint(p.Y, p.X, meters, 270)
// use the half width of the lat and lon
lons := (maxX - minX) / 2
lats := (maxY - minY) / 2
// generate the circle polygon
for th := 0.0; th <= 360.0; th += 360.0 / float64(bufferSteps) {
radians := (math.Pi / 180) * th
x := p.X + lons*math.Cos(radians)
y := p.Y + lats*math.Sin(radians)
points = append(points, geometry.Point{X: x, Y: y})
}
// add last connecting point, make a total of steps+1
points = append(points, points[0])
poly := geojson.NewPolygon(
geometry.NewPoly(points, nil, &geometry.IndexOptions{
Kind: geometry.None,
}),
)
return poly
}
func bufferSimpleGeometries(objs []geojson.Object, meters float64,
) (*geojson.GeometryCollection, error) {
geoms := make([]geojson.Object, len(objs))
for i := 0; i < len(objs); i++ {
g, err := Simple(objs[i], meters)
if err != nil {
return nil, err
}
geoms[i] = g
}
return geojson.NewGeometryCollection(geoms), nil
}
func bufferSimpleFeatures(objs []geojson.Object, meters float64,
) (*geojson.FeatureCollection, error) {
geoms := make([]geojson.Object, len(objs))
for i := 0; i < len(objs); i++ {
g, err := Simple(objs[i], meters)
if err != nil {
return nil, err
}
geoms[i] = g
}
return geojson.NewFeatureCollection(geoms), nil
}
// appendBufferSimpleSeries buffers a series and appends its parts to dst
func appendBufferSimpleSeries(dst []geojson.Object, s geometry.Series, meters float64) []geojson.Object {
nsegs := s.NumSegments()
for i := 0; i < nsegs; i++ {
dst = appendSimpleBufferSegment(dst, s.SegmentAt(i), meters, i == 0)
}
return dst
}
// appendSimpleBufferSegment buffers a segment and appends its parts to dst
func appendSimpleBufferSegment(dst []geojson.Object, seg geometry.Segment,
meters float64, first bool,
) []geojson.Object {
if first {
// endcap A
dst = append(dst, bufferSimplePoint(seg.A, meters))
}
// line polygon
bear1 := geo.BearingTo(seg.A.Y, seg.A.X, seg.B.Y, seg.B.X)
lat1, lon1 := geo.DestinationPoint(seg.A.Y, seg.A.X, meters, bear1-90)
lat2, lon2 := geo.DestinationPoint(seg.A.Y, seg.A.X, meters, bear1+90)
bear2 := geo.BearingTo(seg.B.Y, seg.B.X, seg.A.Y, seg.A.X)
lat3, lon3 := geo.DestinationPoint(seg.B.Y, seg.B.X, meters, bear2-90)
lat4, lon4 := geo.DestinationPoint(seg.B.Y, seg.B.X, meters, bear2+90)
dst = append(dst, geojson.NewPolygon(
geometry.NewPoly([]geometry.Point{
{X: lon1, Y: lat1},
{X: lon2, Y: lat2},
{X: lon3, Y: lat3},
{X: lon4, Y: lat4},
{X: lon1, Y: lat1},
}, nil, nil)))
// endcap B
dst = append(dst, bufferSimplePoint(seg.B, meters))
return dst
}
func bufferSimplePolygon(p *geojson.Polygon, meters float64,
) (*geojson.GeometryCollection, error) {
var geoms []geojson.Object
b := p.Base()
geoms = appendBufferSimpleSeries(geoms, b.Exterior, meters)
for _, hole := range b.Holes {
geoms = appendBufferSimpleSeries(geoms, hole, meters)
}
geoms = append(geoms, p)
return geojson.NewGeometryCollection(geoms), nil
}
func bufferSimpleLineString(l *geojson.LineString, meters float64,
) (*geojson.GeometryCollection, error) {
geoms := appendBufferSimpleSeries(nil, l.Base(), meters)
return geojson.NewGeometryCollection(geoms), nil
}