protected AbstractConcurrentMap.Entry<K,V> createEntry(K key, int hash, V value) { if (bundle==null) throw new IllegalArgumentException("bundle must not be null"); return new EntryWithValue<K,V>(bundle, this, key, hash, value); } }
public EntryWithValue(ReferenceBundle bundle, Segment segment, K key, int hash, V value) { super(bundle, segment, key, hash); setValue(value); }
public EntryWithValue(ReferenceBundle bundle, Segment segment, K key, int hash, V value) { super(bundle, segment, key, hash); setValue(value); }
public Object invoke(Object object, Object[] arguments) { return ((ManagedConcurrentMap.EntryWithValue)instance2Prop.getOrPut(object, getInitialValue())).getValue(); } }
public Object invoke(Object object, Object[] arguments) { return ((ManagedConcurrentMap.EntryWithValue)instance2Prop.getOrPut(object, getInitialValue())).getValue(); } }
public EntryWithValue(ReferenceBundle bundle, Segment segment, K key, int hash, V value) { super(bundle, segment, key, hash); setValue(value); }
protected AbstractConcurrentMap.Entry<K,V> createEntry(K key, int hash, V value) { if (bundle==null) throw new IllegalArgumentException("bundle must not be null"); return new EntryWithValue<K,V>(bundle, this, key, hash, value); } }
protected AbstractConcurrentMap.Entry<K,V> createEntry(K key, int hash, V value) { if (bundle==null) throw new IllegalArgumentException("bundle must not be null"); return new EntryWithValue<K,V>(bundle, this, key, hash, value); } }
protected AbstractConcurrentMap.Entry<K,V> createEntry(K key, int hash, V value) { if (bundle==null) throw new IllegalArgumentException("bundle must not be null"); return new EntryWithValue<K,V>(bundle, this, key, hash, value); } }
public EntryWithValue(ReferenceBundle bundle, Segment segment, K key, int hash, V value) { super(bundle, segment, key, hash); setValue(value); }