public void mapId(int id, Slot slot) { _slotTree.add(trans(), new IdSlotMapping(id, slot.address(), slot.length())); if (_commitFrequency > 0) { _slotInsertCount++; if (_commitFrequency == _slotInsertCount) { _slotTree.commit(trans()); _slotInsertCount = 0; } } }
protected void mapNonClassIDs(int origID, int mappedID) { _cache = new MappedIDPair(origID, mappedID); _idTree.add(trans(), _cache); if (_commitFrequency > 0) { _idInsertCount++; if (_commitFrequency == _idInsertCount) { _idTree.commit(trans()); _idInsertCount = 0; } } }
public int addressForId(int id) { BTreeRange range = _slotTree.searchRange(trans(), new IdSlotMapping(id, 0, 0)); Iterator4 pointers = range.pointers(); if (pointers.moveNext()) { BTreePointer pointer = (BTreePointer) pointers.current(); return ((IdSlotMapping) pointer.key())._address; } return 0; }
public int mappedId(int oldID) { if (_cache.orig() == oldID) { return _cache.mapped(); } int classID = mappedClassID(oldID); if (classID != 0) { return classID; } BTreeRange range = _idTree.searchRange(trans(), new MappedIDPair(oldID, 0)); Iterator4 pointers = range.pointers(); if (pointers.moveNext()) { BTreePointer pointer = (BTreePointer) pointers.current(); _cache = (MappedIDPair) pointer.key(); return _cache.mapped(); } return 0; }
public void processBTree(final DefragmentServicesImpl context, BTree btree) throws CorruptionException, IOException { btree.defragBTree(context); }