void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
void runLockedCleanup() { if (tryLock()) { try { drainReferenceQueues(); expireEntries(); // calls drainRecencyQueue readCount.set(0); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }
/** * Cleanup collected entries when the lock is available. */ void tryDrainReferenceQueues() { if (tryLock()) { try { drainReferenceQueues(); } finally { unlock(); } } }