Uses of Interface
one.microstream.collections.types.XIncreasingSequence
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Packages that use XIncreasingSequence Package Description one.microstream.collections one.microstream.collections.types -
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Uses of XIncreasingSequence in one.microstream.collections
Classes in one.microstream.collections that implement XIncreasingSequence Modifier and Type Class Description classArrayCollector<E>Full scale general purpose implementation of extended collection typeXList.classBulkList<E>Full scale general purpose implementation of extended collection typeXList.classEqBulkList<E>Full scale general purpose implementation of extended collection typeXList.classEqHashEnum<E>classEqHashTable<K,V>classEqHashTable.KeysclassHashEnum<E>classHashTable<K,V>classHashTable.KeysclassLimitList<E>Full scale general purpose implementation of extended collection typeXList.classLockedList<E>classSingle<E>classSubList<E>classSynchList<E>Synchronization wrapper class that wraps anXListinstance in public synchronized delegate methods. -
Uses of XIncreasingSequence in one.microstream.collections.types
Subinterfaces of XIncreasingSequence in one.microstream.collections.types Modifier and Type Interface Description interfaceXEnum<E>interfaceXIncreasingEnum<E>interfaceXIncreasingList<E>interfaceXList<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.
AllXListimplementations have to haveRandomAccessbehavior.
Intelligent implementations make non-random-access implementations like simple linked lists obsolete.interfaceXTable<K,V>static interfaceXTable.Keys<K,V>Methods in one.microstream.collections.types that return XIncreasingSequence Modifier and Type Method Description XIncreasingSequence<E>XIncreasingSequence. addAll(E... elements)XIncreasingSequence<E>XIncreasingSequence. addAll(E[] elements, int offset, int length)XIncreasingSequence<E>XIncreasingSequence. addAll(XGettingCollection<? extends E> elements)XIncreasingSequence<E>XIncreasingSequence. copy()XIncreasingSequence<E>XIncreasingSequence.Creator. newInstance()XIncreasingSequence<E>XIncreasingSequence. prependAll(E... elements)XIncreasingSequence<E>XIncreasingSequence. prependAll(E[] elements, int offset, int length)XIncreasingSequence<E>XIncreasingSequence. prependAll(XGettingCollection<? extends E> elements)XIncreasingSequence<E>XIncreasingSequence. preputAll(E... elements)XIncreasingSequence<E>XIncreasingSequence. preputAll(E[] elements, int offset, int length)XIncreasingSequence<E>XIncreasingSequence. preputAll(XGettingCollection<? extends E> elements)XIncreasingSequence<E>XIncreasingSequence. putAll(E... elements)XIncreasingSequence<E>XIncreasingSequence. putAll(E[] elements, int offset, int length)XIncreasingSequence<E>XIncreasingSequence. putAll(XGettingCollection<? extends E> elements)XIncreasingSequence<E>XIncreasingSequence. range(long fromIndex, long toIndex)XIncreasingSequence<E>XIncreasingSequence. reverse()XIncreasingSequence<E>XIncreasingSequence. sort(Comparator<? super E> comparator)XIncreasingSequence<E>XIncreasingSequence. swap(long indexA, long indexB)XIncreasingSequence<E>XIncreasingSequence. swap(long indexA, long indexB, long length)XIncreasingSequence<E>XIncreasingSequence. toReversed()
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