public class RedissonGeo<V> extends Object implements RGeo<V>
Constructor and Description |
---|
RedissonGeo(Codec codec,
CommandAsyncExecutor connectionManager,
String name) |
RedissonGeo(CommandAsyncExecutor connectionManager,
String name) |
Modifier and Type | Method and Description |
---|---|
long |
add(double longitude,
double latitude,
V member)
Adds geospatial member.
|
long |
add(GeoEntry... entries)
Adds geospatial members.
|
io.netty.util.concurrent.Future<Long> |
addAsync(double longitude,
double latitude,
V member)
Adds geospatial member.
|
io.netty.util.concurrent.Future<Long> |
addAsync(GeoEntry... entries)
Adds geospatial members.
|
protected boolean |
await(io.netty.util.concurrent.Future<?> future,
long timeout,
TimeUnit timeoutUnit) |
boolean |
clearExpire()
Clear an expire timeout or expire date for object.
|
io.netty.util.concurrent.Future<Boolean> |
clearExpireAsync()
Clear an expire timeout or expire date for object in async mode.
|
boolean |
delete()
Deletes the object
|
io.netty.util.concurrent.Future<Boolean> |
deleteAsync()
Delete object in async mode
|
Double |
dist(V firstMember,
V secondMember,
GeoUnit geoUnit)
Returns distance between members in
GeoUnit units. |
io.netty.util.concurrent.Future<Double> |
distAsync(V firstMember,
V secondMember,
GeoUnit geoUnit)
Returns distance between members in
GeoUnit units. |
boolean |
expire(long timeToLive,
TimeUnit timeUnit)
Set a timeout for object.
|
io.netty.util.concurrent.Future<Boolean> |
expireAsync(long timeToLive,
TimeUnit timeUnit)
Set a timeout for object in async mode.
|
boolean |
expireAt(Date timestamp)
Set an expire date for object.
|
boolean |
expireAt(long timestamp)
Set an expire date for object.
|
io.netty.util.concurrent.Future<Boolean> |
expireAtAsync(Date timestamp)
Set an expire date for object in async mode.
|
io.netty.util.concurrent.Future<Boolean> |
expireAtAsync(long timestamp)
Set an expire date for object in async mode.
|
protected <V> V |
get(io.netty.util.concurrent.Future<V> future) |
String |
getName()
Returns name of object
|
Map<V,String> |
hash(V... members)
Returns 11 characters Geohash string mapped by defined member.
|
io.netty.util.concurrent.Future<Map<V,String>> |
hashAsync(V... members)
Returns 11 characters Geohash string mapped by defined member.
|
boolean |
isExists()
Check object existence
|
io.netty.util.concurrent.Future<Boolean> |
isExistsAsync()
Check object existence in async mode.
|
void |
migrate(String host,
int port,
int database)
Transfer an object from source Redis instance to destination Redis instance
|
io.netty.util.concurrent.Future<Void> |
migrateAsync(String host,
int port,
int database)
Transfer an object from source Redis instance to destination Redis instance
in async mode
|
boolean |
move(int database)
Move object to another database
|
io.netty.util.concurrent.Future<Boolean> |
moveAsync(int database)
Move object to another database in async mode
|
protected <V> io.netty.util.concurrent.Promise<V> |
newPromise() |
protected <V> io.netty.util.concurrent.Future<V> |
newSucceededFuture(V result) |
Map<V,GeoPosition> |
pos(V... members)
Returns geo-position mapped by defined member.
|
io.netty.util.concurrent.Future<Map<V,GeoPosition>> |
posAsync(V... members)
Returns geo-position mapped by defined member.
|
List<V> |
radius(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the members of a sorted set, which are within the
borders of the area specified with the center location
and the maximum distance from the center (the radius)
in
GeoUnit units. |
List<V> |
radius(V member,
double radius,
GeoUnit geoUnit)
Returns the members of a sorted set, which are within the
borders of the area specified with the defined member location
and the maximum distance from the defined member location (the radius)
in
GeoUnit units. |
io.netty.util.concurrent.Future<List<V>> |
radiusAsync(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the members of a sorted set, which are within the
borders of the area specified with the center location
and the maximum distance from the center (the radius)
in
GeoUnit units. |
io.netty.util.concurrent.Future<List<V>> |
radiusAsync(V member,
double radius,
GeoUnit geoUnit)
Returns the members of a sorted set, which are within the
borders of the area specified with the defined member location
and the maximum distance from the defined member location (the radius)
in
GeoUnit units. |
Map<V,Double> |
radiusWithDistance(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the distance mapped by member, distance between member and the location.
|
Map<V,Double> |
radiusWithDistance(V member,
double radius,
GeoUnit geoUnit)
Returns the distance mapped by member, distance between member and the defined member location.
|
io.netty.util.concurrent.Future<Map<V,Double>> |
radiusWithDistanceAsync(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the distance mapped by member, distance between member and the location.
|
io.netty.util.concurrent.Future<Map<V,Double>> |
radiusWithDistanceAsync(V member,
double radius,
GeoUnit geoUnit)
Returns the distance mapped by member, distance between member and the defined member location.
|
Map<V,GeoPosition> |
radiusWithPosition(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the geo-position mapped by member.
|
Map<V,GeoPosition> |
radiusWithPosition(V member,
double radius,
GeoUnit geoUnit)
Returns the geo-position mapped by member.
|
io.netty.util.concurrent.Future<Map<V,GeoPosition>> |
radiusWithPositionAsync(double longitude,
double latitude,
double radius,
GeoUnit geoUnit)
Returns the geo-position mapped by member.
|
io.netty.util.concurrent.Future<Map<V,GeoPosition>> |
radiusWithPositionAsync(V member,
double radius,
GeoUnit geoUnit)
Returns the geo-position mapped by member.
|
long |
remainTimeToLive()
Remaining time to live of Redisson object that has a timeout
|
io.netty.util.concurrent.Future<Long> |
remainTimeToLiveAsync()
Get remaining time to live of object in seconds.
|
void |
rename(String newName)
Rename current object key to
newName |
io.netty.util.concurrent.Future<Void> |
renameAsync(String newName)
Rename current object key to
newName
in async mode |
boolean |
renamenx(String newName)
Rename current object key to
newName
only if new key is not exists |
io.netty.util.concurrent.Future<Boolean> |
renamenxAsync(String newName)
Rename current object key to
newName
in async mode only if new key is not exists |
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
clearExpire, expire, expireAt, expireAt, remainTimeToLive
delete, getName, isExists, migrate, move, rename, renamenx
clearExpireAsync, expireAsync, expireAtAsync, expireAtAsync, remainTimeToLiveAsync
deleteAsync, isExistsAsync, migrateAsync, moveAsync, renameAsync, renamenxAsync
public RedissonGeo(CommandAsyncExecutor connectionManager, String name)
public RedissonGeo(Codec codec, CommandAsyncExecutor connectionManager, String name)
public io.netty.util.concurrent.Future<Long> addAsync(double longitude, double latitude, V member)
RGeoAsync
public long add(double longitude, double latitude, V member)
RGeo
public long add(GeoEntry... entries)
RGeo
public io.netty.util.concurrent.Future<Long> addAsync(GeoEntry... entries)
RGeoAsync
public Double dist(V firstMember, V secondMember, GeoUnit geoUnit)
RGeo
GeoUnit
units.public io.netty.util.concurrent.Future<Double> distAsync(V firstMember, V secondMember, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.public Map<V,String> hash(V... members)
RGeo
public io.netty.util.concurrent.Future<Map<V,String>> hashAsync(V... members)
RGeoAsync
public Map<V,GeoPosition> pos(V... members)
RGeo
public io.netty.util.concurrent.Future<Map<V,GeoPosition>> posAsync(V... members)
RGeoAsync
public List<V> radius(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.public io.netty.util.concurrent.Future<List<V>> radiusAsync(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusAsync
in interface RGeoAsync<V>
public Map<V,Double> radiusWithDistance(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.radiusWithDistance
in interface RGeo<V>
public io.netty.util.concurrent.Future<Map<V,Double>> radiusWithDistanceAsync(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusWithDistanceAsync
in interface RGeoAsync<V>
public Map<V,GeoPosition> radiusWithPosition(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.radiusWithPosition
in interface RGeo<V>
public io.netty.util.concurrent.Future<Map<V,GeoPosition>> radiusWithPositionAsync(double longitude, double latitude, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusWithPositionAsync
in interface RGeoAsync<V>
public List<V> radius(V member, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.public io.netty.util.concurrent.Future<List<V>> radiusAsync(V member, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusAsync
in interface RGeoAsync<V>
public Map<V,Double> radiusWithDistance(V member, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.radiusWithDistance
in interface RGeo<V>
public io.netty.util.concurrent.Future<Map<V,Double>> radiusWithDistanceAsync(V member, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusWithDistanceAsync
in interface RGeoAsync<V>
public Map<V,GeoPosition> radiusWithPosition(V member, double radius, GeoUnit geoUnit)
RGeo
GeoUnit
units.radiusWithPosition
in interface RGeo<V>
public io.netty.util.concurrent.Future<Map<V,GeoPosition>> radiusWithPositionAsync(V member, double radius, GeoUnit geoUnit)
RGeoAsync
GeoUnit
units.radiusWithPositionAsync
in interface RGeoAsync<V>
public boolean expire(long timeToLive, TimeUnit timeUnit)
RExpirable
expire
in interface RExpirable
timeToLive
- - timeout before object will be deletedtimeUnit
- - timeout time unittrue
if the timeout was set and false
if notpublic io.netty.util.concurrent.Future<Boolean> expireAsync(long timeToLive, TimeUnit timeUnit)
RExpirableAsync
expireAsync
in interface RExpirableAsync
timeToLive
- - timeout before object will be deletedtimeUnit
- - timeout time unittrue
if the timeout was set and false
if notpublic boolean expireAt(long timestamp)
RExpirable
expireAt
in interface RExpirable
timestamp
- - expire date in milliseconds (Unix timestamp)true
if the timeout was set and false
if notpublic io.netty.util.concurrent.Future<Boolean> expireAtAsync(long timestamp)
RExpirableAsync
expireAtAsync
in interface RExpirableAsync
timestamp
- - expire date in seconds (Unix timestamp)true
if the timeout was set and false
if notpublic boolean expireAt(Date timestamp)
RExpirable
expireAt
in interface RExpirable
timestamp
- - expire datetrue
if the timeout was set and false
if notpublic io.netty.util.concurrent.Future<Boolean> expireAtAsync(Date timestamp)
RExpirableAsync
expireAtAsync
in interface RExpirableAsync
timestamp
- - expire datetrue
if the timeout was set and false
if notpublic boolean clearExpire()
RExpirable
clearExpire
in interface RExpirable
true
if timeout was removed
false
if object does not exist or does not have an associated timeoutpublic io.netty.util.concurrent.Future<Boolean> clearExpireAsync()
RExpirableAsync
clearExpireAsync
in interface RExpirableAsync
true
if the timeout was cleared and false
if notpublic long remainTimeToLive()
RExpirable
remainTimeToLive
in interface RExpirable
public io.netty.util.concurrent.Future<Long> remainTimeToLiveAsync()
RExpirableAsync
remainTimeToLiveAsync
in interface RExpirableAsync
-1
if object does not exist or time in secondsprotected boolean await(io.netty.util.concurrent.Future<?> future, long timeout, TimeUnit timeoutUnit) throws InterruptedException
InterruptedException
protected <V> V get(io.netty.util.concurrent.Future<V> future)
protected <V> io.netty.util.concurrent.Promise<V> newPromise()
protected <V> io.netty.util.concurrent.Future<V> newSucceededFuture(V result)
public void rename(String newName)
RObject
newName
public io.netty.util.concurrent.Future<Void> renameAsync(String newName)
RObjectAsync
newName
in async moderenameAsync
in interface RObjectAsync
public void migrate(String host, int port, int database)
RObject
public io.netty.util.concurrent.Future<Void> migrateAsync(String host, int port, int database)
RObjectAsync
migrateAsync
in interface RObjectAsync
host
- - destination hostport
- - destination portdatabase
- - destination databasepublic boolean move(int database)
RObject
public io.netty.util.concurrent.Future<Boolean> moveAsync(int database)
RObjectAsync
moveAsync
in interface RObjectAsync
true
if key was moved false
if notpublic boolean renamenx(String newName)
RObject
newName
only if new key is not existspublic io.netty.util.concurrent.Future<Boolean> renamenxAsync(String newName)
RObjectAsync
newName
in async mode only if new key is not existsrenamenxAsync
in interface RObjectAsync
public boolean delete()
RObject
public io.netty.util.concurrent.Future<Boolean> deleteAsync()
RObjectAsync
deleteAsync
in interface RObjectAsync
true
if object was deleted false
if notpublic boolean isExists()
RObject
public io.netty.util.concurrent.Future<Boolean> isExistsAsync()
RObjectAsync
isExistsAsync
in interface RObjectAsync
true
if object exists and false
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