_poolMap.get(key); if (objectQueue != null) { objectQueue.decrementInternalProcessingCount(); if (objectQueue.internalProcessingCount == 0 && objectQueue.activeCount == 0 &&
latch.getPool().decrementInternalProcessingCount(); doAllocate = true; } else { latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); returnObject(latch.getkey(), latch.getPair().getValue()); latch.getPool().decrementInternalProcessingCount(); latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); latch.getPool().decrementInternalProcessingCount(); if (!newlyCreated) { latch.reset();
} finally { synchronized (this) { pool.decrementInternalProcessingCount();
latch.getPool().decrementInternalProcessingCount(); doAllocate = true; } else { latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); returnObject(latch.getkey(), latch.getPair().getValue()); latch.getPool().decrementInternalProcessingCount(); latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); latch.getPool().decrementInternalProcessingCount(); if (!newlyCreated) { latch.reset();
latch.getPool().decrementInternalProcessingCount(); doAllocate = true; } else { latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); returnObject(latch.getkey(), latch.getPair().getValue()); latch.getPool().decrementInternalProcessingCount(); latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); latch.getPool().decrementInternalProcessingCount(); if (!newlyCreated) { latch.reset();
latch.getPool().decrementInternalProcessingCount(); latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); latch.getPool().decrementInternalProcessingCount(); latch.reset(); _allocationQueue.add(0, latch);
latch.getPool().decrementInternalProcessingCount(); latch.getPool().decrementInternalProcessingCount(); latch.getPool().incrementActiveCount(); latch.getPool().decrementInternalProcessingCount(); if (!newlyCreated) { latch.reset();
ObjectQueue objectQueue = _poolMap.get(key); objectQueue.decrementInternalProcessingCount(); if (removeObject) { if (objectQueue.queue.isEmpty() &&
ObjectQueue objectQueue = _poolMap.get(key); objectQueue.decrementInternalProcessingCount(); if (removeObject) { if (objectQueue.queue.isEmpty() &&
_poolMap.get(key); if (objectQueue != null) { objectQueue.decrementInternalProcessingCount(); if (objectQueue.internalProcessingCount == 0 && objectQueue.activeCount == 0 &&
} finally { synchronized (this) { pool.decrementInternalProcessingCount(); allocate();
} finally { synchronized (this) { pool.decrementInternalProcessingCount();
_poolMap.get(key); if (objectQueue != null) { objectQueue.decrementInternalProcessingCount(); if (objectQueue.internalProcessingCount == 0 && objectQueue.activeCount == 0 &&
} finally { synchronized (this) { pool.decrementInternalProcessingCount(); allocate();
} finally { synchronized (this) { pool.decrementInternalProcessingCount();
ObjectQueue objectQueue = _poolMap.get(key); objectQueue.decrementInternalProcessingCount(); if (removeObject) { if (objectQueue.queue.isEmpty() &&