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geo.go
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geo.go
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package redimo
import (
"context"
"fmt"
"strconv"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/service/dynamodb"
"github.com/golang/geo/s1"
"github.com/golang/geo/s2"
"github.com/mmcloughlin/geohash"
)
const earthRadiusMeters = 6372797.560856
type GLocation struct {
Lat float64
Lon float64
}
func (l GLocation) s2CellID() string {
return fmt.Sprintf("%d", s2.CellIDFromLatLng(l.s2LatLng()))
}
func (l GLocation) Geohash() string {
return geohash.Encode(l.Lat, l.Lon)
}
func (l GLocation) toAV() dynamodb.AttributeValue {
return dynamodb.AttributeValue{
N: aws.String(l.s2CellID()),
}
}
func (l *GLocation) setCellIDString(cellIDStr string) {
cellID, _ := strconv.ParseUint(cellIDStr, 10, 64)
s2Cell := s2.CellID(cellID)
s2LatLon := s2Cell.LatLng()
l.Lat = s2LatLon.Lat.Degrees()
l.Lon = s2LatLon.Lng.Degrees()
}
func (l GLocation) DistanceTo(other GLocation, unit GUnit) (distance float64) {
return Meters.To(unit, l.s2LatLng().Distance(other.s2LatLng()).Radians()*earthRadiusMeters)
}
func (l GLocation) s2LatLng() s2.LatLng {
return s2.LatLngFromDegrees(l.Lat, l.Lon)
}
func fromCellIDString(cellID string) (l GLocation) {
l.setCellIDString(cellID)
return
}
type GUnit float64
func (from GUnit) To(to GUnit, d float64) float64 {
return (d / float64(to)) * float64(from)
}
const (
Meters GUnit = 1.0
Kilometers GUnit = 1000.0
Miles GUnit = 1609.34
Feet GUnit = 0.3048
)
// GEOADD adds the given members into the key. Members are represented by a map of name to GLocation, which is just a wrapper
// for latitude and longitude. If a member already exists, its location will be updated. The method only returns the members
// that were added as part of the operation and did not already exist.
//
// Cost is O(1) / 1 WCU for each member being added or updated.
//
// Works similar to https://redis.io/commands/geoadd
func (c Client) GEOADD(key string, members map[string]GLocation) (newlyAddedMembers map[string]GLocation, err error) {
newlyAddedMembers = make(map[string]GLocation)
for member, location := range members {
builder := newExpresionBuilder()
builder.updateSetAV(c.skN, location.toAV())
resp, err := c.ddbClient.UpdateItemRequest(&dynamodb.UpdateItemInput{
ConditionExpression: builder.conditionExpression(),
ExpressionAttributeNames: builder.expressionAttributeNames(),
ExpressionAttributeValues: builder.expressionAttributeValues(),
Key: keyDef{pk: key, sk: member}.toAV(c),
ReturnValues: dynamodb.ReturnValueAllOld,
TableName: aws.String(c.table),
UpdateExpression: builder.updateExpression(),
}).Send(context.TODO())
if err != nil {
return newlyAddedMembers, err
}
if len(resp.Attributes) < 1 {
newlyAddedMembers[member] = location
}
}
return newlyAddedMembers, nil
}
// GEODIST returns the scalar distance between the two members, converted to the given unit. If either of
// the members or the key is missing, ok will be false. Each GUnit also has convenience methods to convert
// distances into other units.
//
// Cost is O(1) / 1 RCU for each of the two members.
//
// Works similar to https://redis.io/commands/geodist
func (c Client) GEODIST(key string, member1, member2 string, unit GUnit) (distance float64, ok bool, err error) {
locations, err := c.GEOPOS(key, member1, member2)
if err != nil || len(locations) < 2 {
return
}
return locations[member1].DistanceTo(locations[member2], unit), true, nil
}
// GEOHASH returns the Geohash strings (see https://en.wikipedia.org/wiki/Geohash) of the given members. If any members
// were not found, they will not be present in the returned map.
//
// Cost is O(1) / 1 RCU for each member.
//
// Works similar to https://redis.io/commands/geohash
func (c Client) GEOHASH(key string, members ...string) (geohashes map[string]string, err error) {
geohashes = make(map[string]string)
locations, err := c.GEOPOS(key, members...)
for _, member := range members {
if location, found := locations[member]; found {
geohashes[member] = location.Geohash()
}
}
return
}
// GEOPOS returns the stored locations for each of the given members, as a map of member to location.
// If a member cannot be found, it will not be present in the returned map.
//
// Cost is O(1) / 1 RCU for each member.
//
// Works similar to https://redis.io/commands/geopos
func (c Client) GEOPOS(key string, members ...string) (locations map[string]GLocation, err error) {
locations = make(map[string]GLocation)
for _, member := range members {
resp, err := c.ddbClient.GetItemRequest(&dynamodb.GetItemInput{
ConsistentRead: aws.Bool(c.consistentReads),
Key: keyDef{pk: key, sk: member}.toAV(c),
TableName: aws.String(c.table),
}).Send(context.TODO())
if err != nil {
return locations, err
}
if len(resp.Item) > 0 {
locations[member] = fromCellIDString(aws.StringValue(resp.Item[c.skN].N))
}
}
return
}
// GEORADIUS returns the members (limited to the given count) that are located within the given radius
// of the given center. Note that the positions are returned in no particular order – if there are more
// members inside the given radius than the given count, the method *does not* guarantee that the returned
// locations are the closest.
//
// The GLocation type has convenience methods to calculate the distance between points, this can be used
// to sort the locations as required.
//
// Cost is O(N) where N is the number of locations inside the square / bounding box that contains the circle
// we're searching inside.
//
// Works similar to https://redis.io/commands/georadius
func (c Client) GEORADIUS(key string, center GLocation, radius float64, radiusUnit GUnit, count int64) (positions map[string]GLocation, err error) {
positions = make(map[string]GLocation)
radiusCap := s2.CapFromCenterAngle(s2.PointFromLatLng(center.s2LatLng()), s1.Angle(radiusUnit.To(Meters, radius)/earthRadiusMeters))
for _, cellID := range radiusCap.CellUnionBound() {
builder := newExpresionBuilder()
builder.addConditionEquality(c.pk, StringValue{key})
builder.condition(fmt.Sprintf("#%v BETWEEN :start AND :stop", c.skN), c.skN)
builder.values["start"] = dynamodb.AttributeValue{N: aws.String(fmt.Sprintf("%d", cellID.RangeMin()))}
builder.values["stop"] = dynamodb.AttributeValue{N: aws.String(fmt.Sprintf("%d", cellID.RangeMax()))}
var cursor map[string]dynamodb.AttributeValue
hasMoreResults := true
for hasMoreResults && count > 0 {
resp, err := c.ddbClient.QueryRequest(&dynamodb.QueryInput{
ConsistentRead: aws.Bool(c.consistentReads),
ExclusiveStartKey: cursor,
ExpressionAttributeNames: builder.expressionAttributeNames(),
ExpressionAttributeValues: builder.expressionAttributeValues(),
IndexName: aws.String(c.index),
KeyConditionExpression: builder.conditionExpression(),
Limit: aws.Int64(count),
TableName: aws.String(c.table),
}).Send(context.TODO())
if err != nil {
return positions, err
}
if len(resp.LastEvaluatedKey) > 0 {
cursor = resp.LastEvaluatedKey
} else {
hasMoreResults = false
}
for _, item := range resp.Items {
location := fromCellIDString(aws.StringValue(item[c.skN].N))
member := aws.StringValue(item[c.sk].S)
if center.DistanceTo(location, radiusUnit) <= radius {
positions[member] = location
count--
}
}
}
}
return
}
// GEORADIUSBYMEMBER returns the members (limited to the given count) that are located within the given radius
// of the given member. Note that the positions are returned in no particular order – if there are more
// members inside the given radius than the given count, the method *does not* guarantee that the returned
// locations are the closest.
//
// The GLocation type has convenience methods to calculate the distance between points, this can be used
// to sort the locations as required.
//
// Cost is O(N) where N is the number of locations inside the square / bounding box that contains the circle
// we're searching inside.
//
// Works similar to https://redis.io/commands/georadiusbymember
func (c Client) GEORADIUSBYMEMBER(key string, member string, radius float64, radiusUnit GUnit, count int64) (positions map[string]GLocation, err error) {
locations, err := c.GEOPOS(key, member)
if err == nil {
positions, err = c.GEORADIUS(key, locations[member], radius, radiusUnit, count)
}
return
}