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Methods in one.microstream.collections with parameters of type XProcessingSequence
Modifier and Type |
Method |
Description |
static <E,
C extends Consumer<? super E>> C |
XUtilsCollection.rngMoveTo(XProcessingSequence<E> sequence,
long offset,
long length,
C target,
Predicate<? super E> predicate) |
|
static <E> XProcessingSequence<E> |
XUtilsCollection.rngProcess(XProcessingSequence<E> sequence,
long offset,
long length,
Consumer<? super E> procedure) |
|
static <E> int |
XUtilsCollection.rngReduce(XProcessingSequence<E> sequence,
long offset,
long length,
Predicate<? super E> predicate) |
|
static <E> int |
XUtilsCollection.rngRemove(XProcessingSequence<E> sequence,
long offset,
long length,
E element) |
|
static <E> int |
XUtilsCollection.rngRemove(XProcessingSequence<E> sequence,
long offset,
long length,
E sample,
Equalator<? super E> equalator) |
|
static <E> int |
XUtilsCollection.rngRemoveAll(XProcessingSequence<E> sequence,
long offset,
long length,
XGettingCollection<? extends E> elements) |
|
static <E> int |
XUtilsCollection.rngRemoveAll(XProcessingSequence<E> sequence,
long offset,
long length,
XGettingCollection<? extends E> samples,
Equalator<? super E> equalator) |
|
static <E> int |
XUtilsCollection.rngRemoveDuplicates(XProcessingSequence<E> sequence,
long offset,
long length) |
|
static <E> int |
XUtilsCollection.rngRemoveDuplicates(XProcessingSequence<E> sequence,
long offset,
long length,
Equalator<? super E> equalator) |
|
static <E> int |
XUtilsCollection.rngRemoveNull(XProcessingSequence<E> sequence,
long offset,
long length) |
|
static <E> boolean |
XUtilsCollection.rngRemoveOne(XProcessingSequence<E> sequence,
long offset,
long length,
E element) |
|
static <E> boolean |
XUtilsCollection.rngRemoveOne(XProcessingSequence<E> sequence,
long offset,
long length,
E sample,
Equalator<? super E> equalator) |
|
static <E> int |
XUtilsCollection.rngRetainAll(XProcessingSequence<E> sequence,
long offset,
long length,
XGettingCollection<? extends E> elements) |
|
static <E> int |
XUtilsCollection.rngRetainAll(XProcessingSequence<E> sequence,
long offset,
long length,
XGettingCollection<? extends E> samples,
Equalator<? super E> equalator) |
|
static <E> E |
XUtilsCollection.rngRetrieve(XProcessingSequence<E> sequence,
long offset,
long length,
E element) |
|
static <E> E |
XUtilsCollection.rngRetrieve(XProcessingSequence<E> sequence,
long offset,
long length,
E sample,
Equalator<? super E> equalator) |
|
static <E> E |
XUtilsCollection.rngRetrieve(XProcessingSequence<E> sequence,
long offset,
long length,
Predicate<? super E> predicate) |
|
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Subinterfaces of XProcessingSequence in one.microstream.collections.types
Modifier and Type |
Interface |
Description |
interface |
XBasicEnum<E> |
Intermediate list type providing getting, adding, removing concerns to act as a common super type for XList and XLadder .
|
interface |
XBasicList<E> |
Intermediate list type providing getting, adding, removing concerns to act as a common super type for XList and XLadder .
|
interface |
XBasicSequence<E> |
Intermediate sequence type providing getting, adding, removing concerns to act as a common super type for XSequence and XSortation .
|
interface |
XBasicTable<K,V> |
|
static interface |
XBasicTable.Keys<K,V> |
|
static interface |
XBasicTable.Values<K,V> |
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interface |
XDecreasingEnum<E> |
Intermediate list type that combines all list aspects except increasing (adding and inserting), effectively causing
instances of this list type to maintain its size or shrink, but never grow.
|
interface |
XDecreasingList<E> |
Intermediate list type that combines all list aspects except increasing (adding and inserting), effectively causing
instances of this list type to maintain its size or shrink, but never grow.
|
interface |
XDecreasingSequence<E> |
Intermediate list type that combines all list aspects except increasing (adding and inserting), effectively causing
instances of this list type to maintain its size or shrink, but never grow.
|
interface |
XEnum<E> |
|
interface |
XList<E> |
Extended List interface with a ton of badly needed list procedures like distinction between identity and equality
element comparison, procedure range specification, higher order (functional) procedures, proper toArray() methods,
etc.
All XList implementations have to have RandomAccess behavior.
Intelligent implementations make non-random-access implementations like simple linked lists obsolete.
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interface |
XProcessingEnum<E> |
|
interface |
XProcessingList<E> |
|
interface |
XSequence<E> |
Level 1 collection type defining the single demand for the collection's elements to be ordered.
|
interface |
XTable<K,V> |
|
static interface |
XTable.Keys<K,V> |
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static interface |
XTable.Values<K,V> |
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