void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
void initTable(AtomicReferenceArray<ReferenceEntry<K, V>> newTable) { this.threshold = newTable.length() * 3 / 4; // 0.75 if (!map.customWeigher() && this.threshold == maxSegmentWeight) { // prevent spurious expansion before eviction this.threshold++; } this.table = newTable; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }
AbstractCacheSet(ConcurrentMap<?, ?> map) { this.map = map; }