*
[ Introduction to this package. ] **/ public class WaitableByte extends SynchronizedByte { /** * Make a new WaitableByte with the given initial value, * and using its own internal lock. **/ public WaitableByte(byte initialValue) { super(initialValue); } /** * Make a new WaitableByte with the given initial value, * and using the supplied lock. **/ public WaitableByte(byte initialValue, Object lock) { super(initialValue, lock); } public byte set(byte newValue) { synchronized (lock_) { lock_.notifyAll(); return super.set(newValue); } } public boolean commit(byte assumedValue, byte newValue) { synchronized (lock_) { boolean success = super.commit(assumedValue, newValue); if (success) lock_.notifyAll(); return success; } } public byte increment() { synchronized (lock_) { lock_.notifyAll(); return super.increment(); } } public byte decrement() { synchronized (lock_) { lock_.notifyAll(); return super.decrement(); } } public byte add(byte amount) { synchronized (lock_) { lock_.notifyAll(); return super.add(amount); } } public byte subtract(byte amount) { synchronized (lock_) { lock_.notifyAll(); return super.subtract(amount); } } public byte multiply(byte factor) { synchronized (lock_) { lock_.notifyAll(); return super.multiply(factor); } } public byte divide(byte factor) { synchronized (lock_) { lock_.notifyAll(); return super.divide(factor); } } /** * Set the value to its complement * @return the new value **/ public byte complement() { synchronized (lock_) { value_ = (byte)~value_; lock_.notifyAll(); return value_; } } /** * Set value to value & b. * @return the new value **/ public byte and(byte b) { synchronized (lock_) { value_ = (byte)(value_ & b); lock_.notifyAll(); return value_; } } /** * Set value to value | b. * @return the new value **/ public byte or(byte b) { synchronized (lock_) { value_ = (byte)(value_ | b); lock_.notifyAll(); return value_; } } /** * Set value to value ^ b. * @return the new value **/ public byte xor(byte b) { synchronized (lock_) { value_ = (byte)(value_ ^ b); lock_.notifyAll(); return value_; } } /** * Wait until value equals c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenEqual(byte c, Runnable action) throws InterruptedException { synchronized(lock_) { while (!(value_ == c)) lock_.wait(); if (action != null) action.run(); } } /** * wait until value not equal to c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenNotEqual(byte c, Runnable action) throws InterruptedException { synchronized (lock_) { while (!(value_ != c)) lock_.wait(); if (action != null) action.run(); } } /** * wait until value less than or equal to c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenLessEqual(byte c, Runnable action) throws InterruptedException { synchronized (lock_) { while (!(value_ <= c)) lock_.wait(); if (action != null) action.run(); } } /** * wait until value less than c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenLess(byte c, Runnable action) throws InterruptedException { synchronized (lock_) { while (!(value_ < c)) lock_.wait(); if (action != null) action.run(); } } /** * wait until value greater than or equal to c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenGreaterEqual(byte c, Runnable action) throws InterruptedException { synchronized (lock_) { while (!(value_ >= c)) lock_.wait(); if (action != null) action.run(); } } /** * wait until value greater than c, then run action if nonnull. * The action is run with the synchronization lock held. **/ public void whenGreater(byte c, Runnable action) throws InterruptedException { synchronized (lock_) { while (!(value_ > c)) lock_.wait(); if (action != null) action.run(); } } }