Package io.debezium.util

Class BoundedConcurrentHashMap.LIRSHashEntry<K,​V>

  • Enclosing class:
    BoundedConcurrentHashMap<K,​V>
    private static final class BoundedConcurrentHashMap.LIRSHashEntry<K,​V>
extends BoundedConcurrentHashMap.HashEntry<K,​V>
    Adapted to Infinispan BoundedConcurrentHashMap using LIRS implementation ideas from Charles Fry ([email protected]) See http://code.google.com/p/concurrentlinkedhashmap/source/browse/trunk/src/test/java/com/googlecode/concurrentlinkedhashmap/caches/LirsMap.java for original sources

    • Method Detail

      • inStack

        public boolean inStack()
        Returns true if this entry is in the stack, false otherwise.

      • inQueue

        public boolean inQueue()
        Returns true if this entry is in the queue, false otherwise.

      • miss

        private Set<BoundedConcurrentHashMap.HashEntry<K,​V>> miss()
        Records a cache miss. This is how new entries join the LIRS stack and queue. This is called both when a new entry is first created, and when a non-resident entry is re-computed.

      • warmupMiss

        private void warmupMiss()
        Records a miss when the hot entry set is not full.

      • hot

        private void hot()
        Marks this entry as hot.

      • cold

        private void cold()
        Marks this entry as cold.

      • nonResident

        private void nonResident()
        Marks this entry as non-resident.

      • isResident

        public boolean isResident()
        Returns true if this entry is resident in the cache, false otherwise.

      • tempRemoveFromStack

        private void tempRemoveFromStack()
        Temporarily removes this entry from the stack, fixing up neighbor links. This entry's links remain unchanged, meaning that inStack() will continue to return true. This should only be called if this node's links will be subsequently changed.

      • removeFromStack

        private void removeFromStack()
        Removes this entry from the stack.

      • moveToStackTop

        private void moveToStackTop()
        Moves this entry to the top of the stack.

      • moveToStackBottom

        private void moveToStackBottom()
        Moves this entry to the bottom of the stack.

      • tempRemoveFromQueue

        private void tempRemoveFromQueue()
        Temporarily removes this entry from the queue, fixing up neighbor links. This entry's links remain unchanged. This should only be called if this node's links will be subsequently changed.

      • removeFromQueue

        private void removeFromQueue()
        Removes this entry from the queue.

      • moveToQueueEnd

        private void moveToQueueEnd()
        Moves this entry to the end of the queue.

      • migrateToQueue

        private void migrateToQueue()
        Moves this entry from the stack to the queue, marking it cold (as hot entries must remain in the stack). This should only be called on resident entries, as non-resident entries should not be made resident. The bottom entry on the queue is always hot due to stack pruning.

      • migrateToStack

        private void migrateToStack()
        Moves this entry from the queue to the stack, marking it hot (as cold resident entries must remain in the queue).

      • evict

        private void evict()
        Evicts this entry, removing it from the queue and setting its status to cold non-resident. If the entry is already absent from the stack, it is removed from the backing map; otherwise it remains in order for its recency to be maintained.

      • remove

        private V remove()
        Removes this entry from the cache. This operation is not specified in the paper, which does not account for forced eviction.