public boolean remove(int pos) { boolean result = lru.remove(pos); if (!result) { result = fifo.remove(pos); } recentlyUsed.remove(pos); return result; }
public void put(CacheObject r) { if (r.isStream()) { fifo.put(r); } else if (recentlyUsed.get(r.getPos()) != null) { lru.put(r); } else { fifo.put(r); lastUsed = r.getPos(); } }
public CacheObject get(int pos) { CacheObject r = lru.find(pos); if (r != null) { return r; } r = fifo.find(pos); if (r != null && !r.isStream()) { if (recentlyUsed.get(pos) != null) { if (lastUsed != pos) { fifo.remove(pos); lru.put(r); } } else { recentlyUsed.put(pos, this); } lastUsed = pos; } return r; }
public void clear() { lru.clear(); fifo.clear(); recentlyUsed.clear(); lastUsed = -1; }
/** * An alternative cache implementation. This implementation uses two caches: a LRU cache and a FIFO * cache. Entries are first kept in the FIFO cache, and if referenced again then marked in a hash * set. If referenced again, they are moved to the LRU cache. Stream pages are never added to the * LRU cache. It is supposed to be more or less scan resistant, and it doesn't cache large rows in * the LRU cache. */ public class CacheTQ implements Cache { static final String TYPE_NAME = "TQ"; private final Cache lru; private final Cache fifo; private final SmallLRUCache<Integer, Object> recentlyUsed = SmallLRUCache.newInstance(1024); private int lastUsed = -1; private int maxMemory; CacheTQ(CacheWriter writer, int maxMemoryKb) { this.maxMemory = maxMemoryKb; lru = new CacheLRU(writer, (int) (maxMemoryKb * 0.8), false); fifo = new CacheLRU(writer, (int) (maxMemoryKb * 0.2), true); setMaxMemory(4 * maxMemoryKb); } public void clear() { lru.clear(); fifo.clear(); recentlyUsed.clear(); lastUsed = -1; } public CacheObject find(int pos) { CacheObject r = lru.find(pos); if (r == null) { r = fifo.find(pos); } return r; } public CacheObject get(int pos) { CacheObject r = lru.find(pos); if (r != null) { return r; } r = fifo.find(pos); if (r != null && !r.isStream()) { if (recentlyUsed.get(pos) != null) { if (lastUsed != pos) { fifo.remove(pos); lru.put(r); } } else { recentlyUsed.put(pos, this); } lastUsed = pos; } return r; } public ArrayList<CacheObject> getAllChanged() { ArrayList<CacheObject> changed = New.arrayList(); changed.addAll(lru.getAllChanged()); changed.addAll(fifo.getAllChanged()); return changed; } public int getMaxMemory() { return maxMemory; } public int getMemory() { return lru.getMemory() + fifo.getMemory(); } public void put(CacheObject r) { if (r.isStream()) { fifo.put(r); } else if (recentlyUsed.get(r.getPos()) != null) { lru.put(r); } else { fifo.put(r); lastUsed = r.getPos(); } } public boolean remove(int pos) { boolean result = lru.remove(pos); if (!result) { result = fifo.remove(pos); } recentlyUsed.remove(pos); return result; } public void setMaxMemory(int maxMemoryKb) { this.maxMemory = maxMemoryKb; lru.setMaxMemory((int) (maxMemoryKb * 0.8)); fifo.setMaxMemory((int) (maxMemoryKb * 0.2)); recentlyUsed.setMaxSize(4 * maxMemoryKb); } public CacheObject update(int pos, CacheObject record) { if (lru.find(pos) != null) { return lru.update(pos, record); } return fifo.update(pos, record); } }
public void setMaxMemory(int maxMemoryKb) { this.maxMemory = maxMemoryKb; lru.setMaxMemory((int) (maxMemoryKb * 0.8)); fifo.setMaxMemory((int) (maxMemoryKb * 0.2)); recentlyUsed.setMaxSize(4 * maxMemoryKb); }