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geo.go
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package nodis
import (
"github.com/diiyw/nodis/ds/zset"
"github.com/diiyw/nodis/internal/geohash"
)
type GeoMember struct {
Longitude float64
Latitude float64
Score float64
Member string
}
func (m *GeoMember) Hash() uint64 {
v, _ := geohash.EncodeWGS84(m.Longitude, m.Latitude)
return v
}
func (n *Nodis) GeoAdd(key string, members ...*GeoMember) int64 {
var v int64
_ = n.exec(func(tx *Tx) error {
meta := tx.writeKey(key, n.newZSet)
for _, member := range members {
v += meta.value.(*zset.SortedSet).ZAdd(member.Member, float64(member.Hash()))
}
return nil
})
return v
}
// GeoAddXX adds the specified members to the key only if the member already exists.
func (n *Nodis) GeoAddXX(key string, members ...*GeoMember) int64 {
var v int64
_ = n.exec(func(tx *Tx) error {
meta := tx.writeKey(key, nil)
if !meta.isOk() {
return nil
}
for _, member := range members {
v += meta.value.(*zset.SortedSet).ZAddXX(member.Member, float64(member.Hash()))
}
return nil
})
return v
}
// GeoAddNX adds the specified members to the key only if the member does not already exist.
func (n *Nodis) GeoAddNX(key string, members ...*GeoMember) int64 {
var v int64
_ = n.exec(func(tx *Tx) error {
meta := tx.writeKey(key, n.newZSet)
if meta.isOk() {
return nil
}
for _, member := range members {
v += meta.value.(*zset.SortedSet).ZAddNX(member.Member, float64(member.Hash()))
}
return nil
})
return v
}
func (n *Nodis) GeoDist(key string, member1, member2 string) (float64, error) {
var v float64
err := n.exec(func(tx *Tx) error {
meta := tx.readKey(key)
if !meta.isOk() {
return nil
}
score1, err := meta.value.(*zset.SortedSet).ZScore(member1)
if err != nil {
return err
}
score2, err := meta.value.(*zset.SortedSet).ZScore(member2)
if err != nil {
return err
}
v = geohash.DistBetweenGeoHashWGS84(uint64(score1), uint64(score2))
return nil
})
return v, err
}
func (n *Nodis) GeoHash(key string, members ...string) []string {
var v []string
_ = n.exec(func(tx *Tx) error {
meta := tx.readKey(key)
if !meta.isOk() {
return nil
}
for _, member := range members {
score, err := meta.value.(*zset.SortedSet).ZScore(member)
if err != nil {
return err
}
latitude, longitude := geohash.DecodeToLongLatWGS84(uint64(score))
code, _ := geohash.Encode(
&geohash.Range{Max: 180, Min: -180},
&geohash.Range{Max: 90, Min: -90},
longitude,
latitude,
geohash.WGS84_GEO_STEP,
)
v = append(v, string(geohash.EncodeToBase32(code.Bits)))
}
return nil
})
return v
}
func (n *Nodis) GeoPos(key string, members ...string) []*GeoMember {
var v = make([]*GeoMember, len(members))
_ = n.exec(func(tx *Tx) error {
meta := tx.readKey(key)
if meta == nil {
return nil
}
for i, member := range members {
score, err := meta.value.(*zset.SortedSet).ZScore(member)
if err != nil {
continue
}
lat, lng := geohash.DecodeToLongLatWGS84(uint64(score))
v[i] = &GeoMember{Member: member, Latitude: lat, Longitude: lng}
}
return nil
})
return v
}
func (n *Nodis) GeoRadius(key string, longitude, latitude, radiusMeters float64, count int64, desc bool) ([]*GeoMember, error) {
var v []*GeoMember
err := n.exec(func(tx *Tx) error {
meta := tx.readKey(key)
if !meta.isOk() {
return nil
}
radiusArea, err := geohash.GetAreasByRadiusWGS84(longitude, latitude, radiusMeters)
if err != nil {
return err
}
v = n.geoMembersOfAllNeighbors(meta.value.(*zset.SortedSet), radiusArea, longitude, latitude, radiusMeters, count)
return nil
})
return v, err
}
func (n *Nodis) GeoRadiusByMember(key, member string, radiusMeters float64, count int64, desc bool) ([]*GeoMember, error) {
var v []*GeoMember
err := n.exec(func(tx *Tx) error {
meta := tx.readKey(key)
if !meta.isOk() {
return nil
}
score, err := meta.value.(*zset.SortedSet).ZScore(member)
if err != nil {
return err
}
lat, lng := geohash.DecodeToLongLatWGS84(uint64(score))
radiusArea, err := geohash.GetAreasByRadiusWGS84(lng, lat, radiusMeters)
if err != nil {
return err
}
v = n.geoMembersOfAllNeighbors(meta.value.(*zset.SortedSet), radiusArea, lng, lat, radiusMeters, count)
return nil
})
return v, err
}
func (n *Nodis) geoMembersOfAllNeighbors(v *zset.SortedSet, geoRadius *geohash.Radius, lon, lat, radius float64, count int64) []*GeoMember {
neighbors := [9]*geohash.HashBits{
&geoRadius.Hash,
&geoRadius.North,
&geoRadius.South,
&geoRadius.East,
&geoRadius.West,
&geoRadius.NorthEast,
&geoRadius.NorthWest,
&geoRadius.SouthEast,
&geoRadius.SouthWest,
}
var lastProcessed int = 0
plist := make([]*GeoMember, 0, 64)
for i, area := range neighbors {
if area.IsZero() {
continue
}
// When a huge Radius (in the 5000 km range or more) is used,
// adjacent neighbors can be the same, leading to duplicated
// elements. Skip every range which is the same as the one
// processed previously.
if lastProcessed != 0 &&
area.Bits == neighbors[lastProcessed].Bits &&
area.Step == neighbors[lastProcessed].Step {
continue
}
ps := n.membersOfGeoHashBox(v, lon, lat, radius, area, count)
plist = append(plist, ps...)
lastProcessed = i
}
return plist
}
// Compute the sorted set scores min (inclusive), max (exclusive) we should
// query in order to retrieve all the elements inside the specified area
// 'hash'. The two scores are returned by reference in *min and *max.
func scoresOfGeoHashBox(hash *geohash.HashBits) (min, max uint64) {
min = hash.Bits << (geohash.WGS84_GEO_STEP*2 - hash.Step*2)
bits := hash.Bits + 1
max = bits << (geohash.WGS84_GEO_STEP*2 - hash.Step*2)
return
}
// Obtain all members between the min/max of this geohash bounding box.
func (n *Nodis) membersOfGeoHashBox(v *zset.SortedSet, longitude, latitude, radius float64, hash *geohash.HashBits, count int64) []*GeoMember {
points := make([]*GeoMember, 0, 32)
min, max := scoresOfGeoHashBox(hash)
vlist := v.ZRangeByScore(float64(min), float64(max), 0, count, 0)
for _, v := range vlist {
x, y := geohash.DecodeToLongLatWGS84(uint64(v.Score))
dist := geohash.GetDistance(x, y, longitude, latitude)
if radius >= dist {
p := &GeoMember{
Longitude: x,
Latitude: y,
Score: v.Score,
Member: v.Member,
}
points = append(points, p)
}
}
return points
}