/** * Gets the sequence number associated with a block location.<br> * <br> * If soft is true, this method counts as a volatile read. Otherwise, it is both a volatile read * and a volatile write.<br> * <br> * Soft reads should only be used for the first of the 2 step process for confirming that data * hasn't changed. * * @param x the x coordinate * @param y the y coordinate * @param z the z coordinate * @return the sequence number, or DatatableSequenceNumber.ATOMIC for a single short record */ @Override public int getSequence(int x, int y, int z) { checkCompressing(); int index = getIndex(x, y, z); int spins = 0; boolean interrupted = false; try { while (true) { if (spins++ > SPINS) { interrupted |= atomicWait(index); } checkCompressing(); int blockId = blockIds.get(index); if (!auxStore.isReserved(blockId)) { return AtomicSequenceNumber.ATOMIC; } int sequence = auxStore.getSequence(blockId); if (sequence != AtomicSequenceNumber.UNSTABLE) { return sequence; } } } finally { if (interrupted) { Thread.currentThread().interrupt(); } } }
/** * Sets the block id, data and auxData for the block at (x, y, z), if the current data matches the * expected data.<br> * * @param x the x coordinate * @param y the y coordinate * @param z the z coordinate * @param expectId the expected block id * @param expectData the expected block data * @param expectAuxData the expected block auxiliary data * @param newId the new block id * @param newData the new block data * @param newAuxData the new block auxiliary data * @return true if the block was set */ @Override public boolean compareAndSetBlock( int x, int y, int z, short expectId, short expectData, short newId, short newData) { int index = getIndex(x, y, z); int spins = 0; boolean interrupted = false; try { while (true) { if (spins++ > SPINS) { interrupted |= atomicWait(index); } checkCompressing(); short oldBlockId = blockIds.get(index); boolean oldReserved = auxStore.isReserved(oldBlockId); if (!oldReserved) { if (blockIds.get(index) != expectId || expectData != 0) { return false; } } else { int seq = auxStore.getSequence(oldBlockId); short oldId = auxStore.getId(oldBlockId); short oldData = auxStore.getData(oldBlockId); if (!testSequence(x, y, z, seq)) { continue; } if (oldId != expectId || oldData != expectData) { return false; } } if (newData == 0 && !auxStore.isReserved(newId)) { if (!blockIds.compareAndSet(index, oldBlockId, newId)) { continue; } } else { int newIndex = auxStore.add(newId, newData); if (!blockIds.compareAndSet(index, oldBlockId, (short) newIndex)) { auxStore.remove(newIndex); continue; } } if (oldReserved) { auxStore.remove(oldBlockId); } markDirty(x, y, z); return true; } } finally { atomicNotify(index); if (interrupted) { Thread.currentThread().interrupt(); } } }