V
- the type of elements held in this collectionpublic class RedissonList<V> extends RedissonObject implements RList<V>
List
codec, commandExecutor, name
Constructor and Description |
---|
RedissonList(Codec codec,
CommandAsyncExecutor commandExecutor,
String name,
RedissonClient redisson) |
RedissonList(CommandAsyncExecutor commandExecutor,
String name,
RedissonClient redisson) |
Modifier and Type | Method and Description |
---|---|
void |
add(int index,
V element) |
boolean |
add(V e) |
int |
addAfter(V elementToFind,
V element)
Add
element after elementToFind |
RFuture<Integer> |
addAfterAsync(V elementToFind,
V element)
Inserts
element after elementToFind |
boolean |
addAll(Collection<? extends V> c) |
boolean |
addAll(int index,
Collection<? extends V> coll) |
RFuture<Boolean> |
addAllAsync(Collection<? extends V> c)
Adds all elements contained in the specified collection
|
RFuture<Boolean> |
addAllAsync(int index,
Collection<? extends V> coll)
Inserts
elements at index . |
RFuture<Boolean> |
addAsync(int index,
V element)
Inserts
element at index . |
RFuture<Boolean> |
addAsync(V e)
Adds element into this collection.
|
protected <T> RFuture<T> |
addAsync(V e,
RedisCommand<T> command) |
int |
addBefore(V elementToFind,
V element)
Add
element before elementToFind |
RFuture<Integer> |
addBeforeAsync(V elementToFind,
V element)
Inserts
element before elementToFind |
void |
clear() |
boolean |
clearExpire()
Clear an expire timeout or expire date for object.
|
RFuture<Boolean> |
clearExpireAsync()
Clear an expire timeout or expire date for object in async mode.
|
protected RFuture<Boolean> |
clearExpireAsync(String... keys) |
boolean |
contains(Object o) |
boolean |
containsAll(Collection<?> c) |
RFuture<Boolean> |
containsAllAsync(Collection<?> c)
Returns
true if this collection contains all of the elements
in the specified collection. |
RFuture<Boolean> |
containsAsync(Object o)
Returns
true if this collection contains encoded state of the specified element. |
boolean |
equals(Object o) |
boolean |
expire(long timeToLive,
TimeUnit timeUnit)
Set a timeout for object.
|
RFuture<Boolean> |
expireAsync(long timeToLive,
TimeUnit timeUnit)
Set a timeout for object in async mode.
|
protected RFuture<Boolean> |
expireAsync(long timeToLive,
TimeUnit timeUnit,
String... keys) |
boolean |
expireAt(Date timestamp)
Set an expire date for object.
|
boolean |
expireAt(long timestamp)
Set an expire date for object.
|
RFuture<Boolean> |
expireAtAsync(Date timestamp)
Set an expire date for object in async mode.
|
RFuture<Boolean> |
expireAtAsync(long timestamp)
Set an expire date for object in async mode.
|
protected RFuture<Boolean> |
expireAtAsync(long timestamp,
String... keys) |
void |
fastRemove(int index)
Remove object by specified index
|
RFuture<Void> |
fastRemoveAsync(int index)
Removes element at
index . |
void |
fastSet(int index,
V element)
Set
element at index . |
RFuture<Void> |
fastSetAsync(int index,
V element)
Set
element at index . |
List<V> |
get(int... indexes)
Loads elements by specified
indexes |
V |
get(int index) |
RFuture<List<V>> |
getAsync(int... indexes)
Loads elements by specified
indexes |
RFuture<V> |
getAsync(int index)
Get element at
index |
int |
hashCode() |
int |
indexOf(Object o) |
RFuture<Integer> |
indexOfAsync(Object o)
Returns last index of
element or
-1 if element isn't found |
<R> RFuture<R> |
indexOfAsync(Object o,
Convertor<R> convertor) |
boolean |
isEmpty() |
Iterator<V> |
iterator() |
int |
lastIndexOf(Object o) |
RFuture<Integer> |
lastIndexOfAsync(Object o)
Returns last index of
element or
-1 if element isn't found |
<R> RFuture<R> |
lastIndexOfAsync(Object o,
Convertor<R> convertor) |
ListIterator<V> |
listIterator() |
ListIterator<V> |
listIterator(int ind) |
<KOut,VOut> |
mapReduce()
Returns
RMapReduce object associated with this map |
List<V> |
range(int toIndex)
Returns range of values from 0 index to
toIndex . |
List<V> |
range(int fromIndex,
int toIndex)
Returns range of values from
fromIndex to toIndex index including. |
RFuture<List<V>> |
rangeAsync(int toIndex)
Returns range of values from 0 index to
toIndex . |
RFuture<List<V>> |
rangeAsync(int fromIndex,
int toIndex)
Returns range of values from
fromIndex to toIndex index including. |
List<V> |
readAll()
Read all elements at once
|
RFuture<List<V>> |
readAllAsync()
Read all elements at once
|
List<V> |
readSort(SortOrder order)
Read data in sorted view
|
List<V> |
readSort(SortOrder order,
int offset,
int count)
Read data in sorted view
|
<T> Collection<T> |
readSort(String byPattern,
List<String> getPatterns,
SortOrder order)
Read data in sorted view
|
<T> Collection<T> |
readSort(String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Read data in sorted view
|
List<V> |
readSort(String byPattern,
SortOrder order)
Read data in sorted view
|
List<V> |
readSort(String byPattern,
SortOrder order,
int offset,
int count)
Read data in sorted view
|
List<V> |
readSortAlpha(SortOrder order)
Read data in sorted view lexicographically
|
List<V> |
readSortAlpha(SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
<T> Collection<T> |
readSortAlpha(String byPattern,
List<String> getPatterns,
SortOrder order)
Read data in sorted view lexicographically
|
<T> Collection<T> |
readSortAlpha(String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
List<V> |
readSortAlpha(String byPattern,
SortOrder order)
Read data in sorted view lexicographically
|
List<V> |
readSortAlpha(String byPattern,
SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
RFuture<List<V>> |
readSortAlphaAsync(SortOrder order)
Read data in sorted view lexicographically
|
RFuture<List<V>> |
readSortAlphaAsync(SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
<T> RFuture<Collection<T>> |
readSortAlphaAsync(String byPattern,
List<String> getPatterns,
SortOrder order)
Read data in sorted view lexicographically
|
<T> RFuture<Collection<T>> |
readSortAlphaAsync(String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
RFuture<List<V>> |
readSortAlphaAsync(String byPattern,
SortOrder order)
Read data in sorted view lexicographically
|
RFuture<List<V>> |
readSortAlphaAsync(String byPattern,
SortOrder order,
int offset,
int count)
Read data in sorted view lexicographically
|
RFuture<List<V>> |
readSortAsync(SortOrder order)
Read data in sorted view
|
RFuture<List<V>> |
readSortAsync(SortOrder order,
int offset,
int count)
Read data in sorted view
|
<T> RFuture<Collection<T>> |
readSortAsync(String byPattern,
List<String> getPatterns,
SortOrder order)
Read data in sorted view
|
<T> RFuture<Collection<T>> |
readSortAsync(String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Read data in sorted view
|
RFuture<List<V>> |
readSortAsync(String byPattern,
SortOrder order)
Read data in sorted view
|
RFuture<List<V>> |
readSortAsync(String byPattern,
SortOrder order,
int offset,
int count)
Read data in sorted view
|
long |
remainTimeToLive()
Remaining time to live of Redisson object that has a timeout
|
RFuture<Long> |
remainTimeToLiveAsync()
Remaining time to live of Redisson object that has a timeout
|
V |
remove(int index) |
boolean |
remove(Object o) |
boolean |
remove(Object o,
int count)
Removes up to
count occurrences of element |
boolean |
removeAll(Collection<?> c) |
RFuture<Boolean> |
removeAllAsync(Collection<?> c)
Removes all of this collection's elements that are also contained in the
specified collection.
|
RFuture<V> |
removeAsync(int index)
Removes element at
index . |
RFuture<Boolean> |
removeAsync(Object o)
Removes a single instance of the specified element from this
collection, if it is present.
|
RFuture<Boolean> |
removeAsync(Object o,
int count)
Removes up to
count occurrences of element |
boolean |
retainAll(Collection<?> c) |
RFuture<Boolean> |
retainAllAsync(Collection<?> c)
Retains only the elements in this collection that are contained in the
specified collection.
|
V |
set(int index,
V element) |
RFuture<V> |
setAsync(int index,
V element)
Set
element at index and returns previous element. |
int |
size() |
RFuture<Integer> |
sizeAsync()
Returns number of elements in this collection.
|
int |
sortTo(String destName,
SortOrder order)
Sort data and store to
destName list |
int |
sortTo(String destName,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
int |
sortTo(String destName,
String byPattern,
List<String> getPatterns,
SortOrder order)
Sort data and store to
destName list |
int |
sortTo(String destName,
String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
int |
sortTo(String destName,
String byPattern,
SortOrder order)
Sort data and store to
destName list |
int |
sortTo(String destName,
String byPattern,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
SortOrder order)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
String byPattern,
List<String> getPatterns,
SortOrder order)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
String byPattern,
List<String> getPatterns,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
String byPattern,
SortOrder order)
Sort data and store to
destName list |
RFuture<Integer> |
sortToAsync(String destName,
String byPattern,
SortOrder order,
int offset,
int count)
Sort data and store to
destName list |
RList<V> |
subList(int fromIndex,
int toIndex) |
Object[] |
toArray() |
<T> T[] |
toArray(T[] a) |
String |
toString() |
void |
trim(int fromIndex,
int toIndex)
Trim list and remains elements only in specified range
fromIndex , inclusive, and toIndex , inclusive. |
RFuture<Void> |
trimAsync(int fromIndex,
int toIndex)
Trim list and remains elements only in specified range
fromIndex , inclusive, and toIndex , inclusive. |
addListener, addListenerAsync, copy, copyAsync, delete, deleteAsync, deleteAsync, dump, dumpAsync, encode, encode, encode, encodeMapKey, encodeMapKeys, encodeMapValue, encodeMapValues, get, getCodec, getLockByMapKey, getLockByValue, getName, getName, isExists, isExistsAsync, migrate, migrateAsync, move, moveAsync, prefixName, removeListener, removeListenerAsync, rename, renameAsync, renamenx, renamenxAsync, restore, restore, restoreAndReplace, restoreAndReplace, restoreAndReplaceAsync, restoreAndReplaceAsync, restoreAsync, restoreAsync, sizeInMemory, sizeInMemoryAsync, sizeInMemoryAsync, suffixName, toSeconds, toStream, touch, touchAsync, unlink, unlinkAsync
clone, finalize, getClass, notify, notifyAll, wait, wait, wait
replaceAll, sort, spliterator
parallelStream, removeIf, stream
clearExpire, expire, expireAt, expireAt, remainTimeToLive
addListener, copy, delete, dump, getCodec, getName, isExists, migrate, move, removeListener, rename, renamenx, restore, restore, restoreAndReplace, restoreAndReplace, sizeInMemory, touch, unlink
clearExpireAsync, expireAsync, expireAtAsync, expireAtAsync, remainTimeToLiveAsync
addListenerAsync, copyAsync, deleteAsync, dumpAsync, isExistsAsync, migrateAsync, moveAsync, removeListenerAsync, renameAsync, renamenxAsync, restoreAndReplaceAsync, restoreAndReplaceAsync, restoreAsync, restoreAsync, sizeInMemoryAsync, touchAsync, unlinkAsync
public RedissonList(CommandAsyncExecutor commandExecutor, String name, RedissonClient redisson)
public RedissonList(Codec codec, CommandAsyncExecutor commandExecutor, String name, RedissonClient redisson)
public <KOut,VOut> RCollectionMapReduce<V,KOut,VOut> mapReduce()
RList
RMapReduce
object associated with this mappublic int size()
public RFuture<Integer> sizeAsync()
RCollectionAsync
sizeAsync
in interface RCollectionAsync<V>
public boolean isEmpty()
public boolean contains(Object o)
public Object[] toArray()
public RFuture<List<V>> readAllAsync()
RListAsync
readAllAsync
in interface RListAsync<V>
public <T> T[] toArray(T[] a)
public boolean add(V e)
public RFuture<Boolean> addAsync(V e)
RCollectionAsync
addAsync
in interface RCollectionAsync<V>
e
- - element to addtrue
if an element was added
and false
if it is already presentprotected <T> RFuture<T> addAsync(V e, RedisCommand<T> command)
public boolean remove(Object o)
public RFuture<Boolean> removeAsync(Object o)
RCollectionAsync
removeAsync
in interface RCollectionAsync<V>
o
- element to be removed from this collection, if presenttrue
if an element was removed as a result of this callpublic RFuture<Boolean> removeAsync(Object o, int count)
RListAsync
count
occurrences of element
removeAsync
in interface RListAsync<V>
o
- - element to findcount
- - amount occurrencestrue
if at least one element removed;
or false
if element isn't foundpublic boolean remove(Object o, int count)
RList
count
occurrences of element
public RFuture<Boolean> containsAllAsync(Collection<?> c)
RCollectionAsync
true
if this collection contains all of the elements
in the specified collection.containsAllAsync
in interface RCollectionAsync<V>
c
- collection to be checked for containment in this collectiontrue
if this collection contains all of the elements
in the specified collectionpublic boolean containsAll(Collection<?> c)
containsAll
in interface Collection<V>
containsAll
in interface List<V>
public boolean addAll(Collection<? extends V> c)
public RFuture<Boolean> addAllAsync(Collection<? extends V> c)
RCollectionAsync
addAllAsync
in interface RCollectionAsync<V>
c
- - collection of elements to addtrue
if at least one element was added
and false
if all elements are already presentpublic RFuture<Boolean> addAllAsync(int index, Collection<? extends V> coll)
RListAsync
elements
at index
.
Subsequent elements are shifted.addAllAsync
in interface RListAsync<V>
index
- - index numbercoll
- - elements to inserttrue
if list changed
or false
if element isn't foundpublic boolean addAll(int index, Collection<? extends V> coll)
public RFuture<Boolean> removeAllAsync(Collection<?> c)
RCollectionAsync
removeAllAsync
in interface RCollectionAsync<V>
c
- collection containing elements to be removed from this collectiontrue
if this collection changed as a result of the
callpublic boolean removeAll(Collection<?> c)
public boolean retainAll(Collection<?> c)
public RFuture<Boolean> retainAllAsync(Collection<?> c)
RCollectionAsync
retainAllAsync
in interface RCollectionAsync<V>
c
- collection containing elements to be retained in this collectiontrue
if this collection changed as a result of the callpublic void clear()
public RFuture<V> getAsync(int index)
RListAsync
index
getAsync
in interface RListAsync<V>
index
- - index of objectpublic List<V> get(int... indexes)
RList
indexes
public RFuture<List<V>> getAsync(int... indexes)
RListAsync
indexes
getAsync
in interface RListAsync<V>
indexes
- of elementspublic RFuture<V> setAsync(int index, V element)
RListAsync
element
at index
and returns previous element.setAsync
in interface RListAsync<V>
index
- - index of objectelement
- - objectnull
if element wasn't set.public RFuture<Void> fastSetAsync(int index, V element)
RListAsync
element
at index
.
Works faster than RListAsync.setAsync(int, Object)
but
doesn't return previous element.fastSetAsync
in interface RListAsync<V>
index
- - index of objectelement
- - objectpublic RFuture<Boolean> addAsync(int index, V element)
RListAsync
element
at index
.
Subsequent elements are shifted.addAsync
in interface RListAsync<V>
index
- - index numberelement
- - element to inserttrue
if list was changedpublic RFuture<V> removeAsync(int index)
RListAsync
index
.removeAsync
in interface RListAsync<V>
index
- - index of objectnull
if element wasn't set.public void fastRemove(int index)
RList
fastRemove
in interface RList<V>
index
- - index of objectpublic RFuture<Void> fastRemoveAsync(int index)
RListAsync
index
.
Works faster than RListAsync.removeAsync(Object, int)
but
doesn't return element.fastRemoveAsync
in interface RListAsync<V>
index
- - index of objectpublic RFuture<Boolean> containsAsync(Object o)
RCollectionAsync
true
if this collection contains encoded state of the specified element.containsAsync
in interface RCollectionAsync<V>
o
- element whose presence in this collection is to be testedtrue
if this collection contains the specified
element and false
otherwisepublic RFuture<Integer> indexOfAsync(Object o)
RListAsync
element
or
-1 if element isn't foundindexOfAsync
in interface RListAsync<V>
o
- to findpublic int lastIndexOf(Object o)
lastIndexOf
in interface List<V>
public RFuture<Integer> lastIndexOfAsync(Object o)
RListAsync
element
or
-1 if element isn't foundlastIndexOfAsync
in interface RListAsync<V>
o
- to findpublic void trim(int fromIndex, int toIndex)
RList
fromIndex
, inclusive, and toIndex
, inclusive.public RFuture<Void> trimAsync(int fromIndex, int toIndex)
RListAsync
fromIndex
, inclusive, and toIndex
, inclusive.trimAsync
in interface RListAsync<V>
fromIndex
- - from indextoIndex
- - to indexpublic ListIterator<V> listIterator()
listIterator
in interface List<V>
public ListIterator<V> listIterator(int ind)
listIterator
in interface List<V>
public boolean equals(Object o)
public int hashCode()
public RFuture<Integer> addAfterAsync(V elementToFind, V element)
RListAsync
element
after elementToFind
addAfterAsync
in interface RListAsync<V>
elementToFind
- - object to findelement
- - object to addpublic RFuture<Integer> addBeforeAsync(V elementToFind, V element)
RListAsync
element
before elementToFind
addBeforeAsync
in interface RListAsync<V>
elementToFind
- - object to findelement
- - object to addpublic int addAfter(V elementToFind, V element)
RList
element
after elementToFind
public int addBefore(V elementToFind, V element)
RList
element
before elementToFind
public List<V> readSort(SortOrder order)
RSortable
public RFuture<List<V>> readSortAsync(SortOrder order)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
order
- for sorted datapublic List<V> readSort(SortOrder order, int offset, int count)
RSortable
public RFuture<List<V>> readSortAsync(SortOrder order, int offset, int count)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
order
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic List<V> readSort(String byPattern, SortOrder order)
RSortable
public RFuture<List<V>> readSortAsync(String byPattern, SortOrder order)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted datapublic List<V> readSort(String byPattern, SortOrder order, int offset, int count)
RSortable
public RFuture<List<V>> readSortAsync(String byPattern, SortOrder order, int offset, int count)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic <T> Collection<T> readSort(String byPattern, List<String> getPatterns, SortOrder order)
RSortable
public <T> RFuture<Collection<T>> readSortAsync(String byPattern, List<String> getPatterns, SortOrder order)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted datapublic <T> Collection<T> readSort(String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortable
readSort
in interface RSortable<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic <T> RFuture<Collection<T>> readSortAsync(String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortableAsync
readSortAsync
in interface RSortableAsync<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic List<V> readSortAlpha(SortOrder order)
RSortable
readSortAlpha
in interface RSortable<List<V>>
order
- for sorted datapublic RFuture<List<V>> readSortAlphaAsync(SortOrder order)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
order
- for sorted datapublic List<V> readSortAlpha(SortOrder order, int offset, int count)
RSortable
readSortAlpha
in interface RSortable<List<V>>
order
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic RFuture<List<V>> readSortAlphaAsync(SortOrder order, int offset, int count)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
order
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic List<V> readSortAlpha(String byPattern, SortOrder order)
RSortable
readSortAlpha
in interface RSortable<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted datapublic RFuture<List<V>> readSortAlphaAsync(String byPattern, SortOrder order)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted datapublic List<V> readSortAlpha(String byPattern, SortOrder order, int offset, int count)
RSortable
readSortAlpha
in interface RSortable<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic RFuture<List<V>> readSortAlphaAsync(String byPattern, SortOrder order, int offset, int count)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
byPattern
- that is used to generate the keys that are used for sortingorder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic <T> Collection<T> readSortAlpha(String byPattern, List<String> getPatterns, SortOrder order)
RSortable
readSortAlpha
in interface RSortable<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted datapublic <T> RFuture<Collection<T>> readSortAlphaAsync(String byPattern, List<String> getPatterns, SortOrder order)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted datapublic <T> Collection<T> readSortAlpha(String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortable
readSortAlpha
in interface RSortable<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic <T> RFuture<Collection<T>> readSortAlphaAsync(String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortableAsync
readSortAlphaAsync
in interface RSortableAsync<List<V>>
T
- object typebyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic int sortTo(String destName, SortOrder order)
RSortable
destName
listpublic RFuture<Integer> sortToAsync(String destName, SortOrder order)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationorder
- for sorted datapublic int sortTo(String destName, SortOrder order, int offset, int count)
RSortable
destName
listpublic RFuture<Integer> sortToAsync(String destName, SortOrder order, int offset, int count)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationorder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic int sortTo(String destName, String byPattern, SortOrder order, int offset, int count)
RSortable
destName
listpublic int sortTo(String destName, String byPattern, SortOrder order)
RSortable
destName
listpublic RFuture<Integer> sortToAsync(String destName, String byPattern, SortOrder order)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationbyPattern
- that is used to generate the keys that are used for sortingorder
- for sorted datapublic RFuture<Integer> sortToAsync(String destName, String byPattern, SortOrder order, int offset, int count)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationbyPattern
- that is used to generate the keys that are used for sortingorder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic int sortTo(String destName, String byPattern, List<String> getPatterns, SortOrder order)
RSortable
destName
listpublic RFuture<Integer> sortToAsync(String destName, String byPattern, List<String> getPatterns, SortOrder order)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationbyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted datapublic int sortTo(String destName, String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortable
destName
listsortTo
in interface RSortable<List<V>>
destName
- list object destinationbyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic RFuture<Integer> sortToAsync(String destName, String byPattern, List<String> getPatterns, SortOrder order, int offset, int count)
RSortableAsync
destName
listsortToAsync
in interface RSortableAsync<List<V>>
destName
- list object destinationbyPattern
- that is used to generate the keys that are used for sortinggetPatterns
- that is used to load values by keys in sorted vieworder
- for sorted dataoffset
- of sorted datacount
- of sorted datapublic RFuture<List<V>> rangeAsync(int toIndex)
RListAsync
toIndex
. Indexes are zero based.
-1
means the last element, -2
means penultimate and so on.rangeAsync
in interface RListAsync<V>
toIndex
- - end indexpublic RFuture<List<V>> rangeAsync(int fromIndex, int toIndex)
RListAsync
fromIndex
to toIndex
index including.
Indexes are zero based. -1
means the last element, -2
means penultimate and so on.rangeAsync
in interface RListAsync<V>
fromIndex
- - start indextoIndex
- - end indexpublic List<V> range(int toIndex)
RList
toIndex
. Indexes are zero based.
-1
means the last element, -2
means penultimate and so on.public List<V> range(int fromIndex, int toIndex)
RList
fromIndex
to toIndex
index including.
Indexes are zero based. -1
means the last element, -2
means penultimate and so on.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 RFuture<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 RFuture<Boolean> expireAtAsync(long timestamp)
RExpirableAsync
expireAtAsync
in interface RExpirableAsync
timestamp
- - expire date in milliseconds (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 RFuture<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 RFuture<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 RFuture<Long> remainTimeToLiveAsync()
RExpirableAsync
remainTimeToLiveAsync
in interface RExpirableAsync
protected RFuture<Boolean> expireAsync(long timeToLive, TimeUnit timeUnit, String... keys)
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