Object writeReplace() { SerializationProxy<K, V> proxy = makeSerializationProxy(cache, isWeighted); if (cache.refreshAfterWrite()) { proxy.refreshAfterWriteNanos = cache.refreshAfterWriteNanos(); } proxy.async = true; return proxy; } }
@Override Object writeReplace() { @SuppressWarnings("unchecked") SerializationProxy<K, V> proxy = (SerializationProxy<K, V>) super.writeReplace(); if (cache.refreshAfterWrite()) { proxy.refreshAfterWriteNanos = cache.refreshAfterWriteNanos(); } proxy.loader = cache.cacheLoader; return proxy; } }
Object writeReplace() { SerializationProxy<K, V> proxy = makeSerializationProxy(cache, isWeighted); if (cache.refreshAfterWrite()) { proxy.refreshAfterWriteNanos = cache.refreshAfterWriteNanos(); } proxy.loader = loader; proxy.async = true; return proxy; }
copy.refreshAfterWriteNanos(), is(original.refreshAfterWriteNanos())); } else { desc.expectThat("", copy.refreshAfterWrite(), is(false));
long oldWriteTime = node.getWriteTime(); long refreshWriteTime = (now + ASYNC_EXPIRY); if (((now - oldWriteTime) > refreshAfterWriteNanos()) && ((key = node.getKey()) != null) && ((oldValue = node.getValue()) != null) && node.casWriteTime(oldWriteTime, refreshWriteTime)) {
@Override Object writeReplace() { @SuppressWarnings("unchecked") SerializationProxy<K, V> proxy = (SerializationProxy<K, V>) super.writeReplace(); if (cache.refreshAfterWrite()) { proxy.refreshAfterWriteNanos = cache.refreshAfterWriteNanos(); } proxy.loader = cache.cacheLoader; return proxy; } }
Object writeReplace() { SerializationProxy<K, V> proxy = makeSerializationProxy(cache, isWeighted); if (cache.refreshAfterWrite()) { proxy.refreshAfterWriteNanos = cache.refreshAfterWriteNanos(); } proxy.loader = loader; proxy.async = true; return proxy; } }
long oldWriteTime = node.getWriteTime(); long refreshWriteTime = (now + ASYNC_EXPIRY); if (((now - oldWriteTime) > refreshAfterWriteNanos()) && ((key = node.getKey()) != null) && ((oldValue = node.getValue()) != null) && node.casWriteTime(oldWriteTime, refreshWriteTime)) {