public void resetGenerator(CharacterSource newGenerator) { try { scoreLock.lock(); if (generator != null) generator.removeCharacterListener(this); generator = newGenerator; if (generator != null) generator.addCharacterListener(this); } finally { scoreLock.unlock(); } }
public void resetTypist(CharacterSource newTypist) { try { scoreLock.lock(); if (typist != null) typist.removeCharacterListener(this); typist = newTypist; if (typist != null) typist.addCharacterListener(this); } finally { scoreLock.unlock(); } }
public void resetScore() { try { scoreLock.lock(); score = 0; char2type = -1; setScore(); } finally { scoreLock.unlock(); } }
private void awaitAvailableConnection(long timeout, TimeUnit unit) throws InterruptedException { waitLock.lock(); waiter++; try { hasAvailableConnection.await(timeout, unit); } finally { waiter--; waitLock.unlock(); } }
public void setDone(boolean b) { try { lock.lock(); done = b; if (!done) cv.signal(); } finally { lock.unlock(); } }
private void signalAllAvailableConnection() { // Quick check if it's worth signaling to avoid locking if (waiter == 0) return; waitLock.lock(); try { hasAvailableConnection.signalAll(); } finally { waitLock.unlock(); } }
/** Notify the worker that new entry to delete appeared. */ void signal() { lock.lock(); try { force = true; cond.signalAll(); } finally { lock.unlock(); } }
public void deposit(int amount) { lock.lock(); // Acquire the lock try { balance += amount; System.out.println("Deposit " + amount + "\t\t\t\t\t" + getBalance()); newDeposit.signalAll(); } finally { lock.unlock(); // Release the lock } }
/** {@inheritDoc} */ @Override public long get() throws GridException { checkRemoved(); lock.lock(); try { return locVal; } finally { lock.unlock(); } }
/** * Set local batch size for this sequences. * * @param size Sequence batch size. Must be more then 0. */ @Override public void batchSize(int size) { A.ensure(size > 0, " Batch size can't be less then 0: " + size); lock.lock(); try { batchSize = size; } finally { lock.unlock(); } }
public void waitForOthers() { lock.lock(); NumCount++; if (NumCount == NumWait) { workers.signalAll(); NumCount = 0; } else { try { workers.await(); } catch (InterruptedException e) { } } lock.unlock(); }
public void withdraw(int amount) { lock.lock(); // Acquire the lock try { while (balance < amount) { System.out.println("\t\t\tWait for a deposit"); newDeposit.await(); } balance -= amount; System.out.println("\t\t\tWithdraw " + amount + "\t\t" + getBalance()); } catch (InterruptedException ex) { ex.printStackTrace(); } finally { lock.unlock(); // Release the lock } }
/** {@inheritDoc} */ @Override protected void body() throws InterruptedException { if (log.isDebugEnabled()) log.debug("Delete worker started."); while (!cancelled) { lock.lock(); try { if (!cancelled && !force) cond.await(FREQUENCY, TimeUnit.MILLISECONDS); force = false; // Reset force flag. } finally { lock.unlock(); } if (!cancelled) delete(); } }
public void run() { try { lock.lock(); while (true) { try { if (done) { cv.await(); } else { nextCharacter(); cv.await(getPauseTime(), TimeUnit.MILLISECONDS); } } catch (InterruptedException ie) { return; } } } finally { lock.unlock(); } }
public void newCharacter(CharacterEvent ce) { scoreLock.lock(); try { if (ce.source == generator) { if (char2type != -1) { score--; setScore(); } char2type = ce.character; } else { if (char2type != ce.character) { score--; } else { score++; char2type = -1; } } setScore(); } finally { scoreLock.unlock(); } }
private final void lockWrite() { $lock.lock(); }
/** * Synchronous sequence update operation. Will add given amount to the sequence value. * * @param l Increment amount. * @param updateCall Cache call that will update sequence reservation count in accordance with l. * @param updated If {@code true}, will return sequence value after update, otherwise will return * sequence value prior to update. * @return Sequence value. * @throws GridException If update failed. */ private long internalUpdate(long l, @Nullable Callable<Long> updateCall, boolean updated) throws GridException { checkRemoved(); assert l > 0; lock.lock(); try { // If reserved range isn't exhausted. if (locVal + l <= upBound) { long curVal = locVal; locVal += l; return updated ? locVal : curVal; } } finally { lock.unlock(); } if (updateCall == null) updateCall = internalUpdate(l, updated); while (true) { if (updateGuard.compareAndSet(false, true)) { try { // This call must be outside lock. return CU.outTx(updateCall, ctx); } finally { lock.lock(); try { updateGuard.set(false); cond.signalAll(); } finally { lock.unlock(); } } } else { lock.lock(); try { while (locVal >= upBound && updateGuard.get()) { try { cond.await(500, MILLISECONDS); } catch (InterruptedException e) { throw new GridInterruptedException(e); } } checkRemoved(); // If reserved range isn't exhausted. if (locVal + l <= upBound) { long curVal = locVal; locVal += l; return updated ? locVal : curVal; } } finally { lock.unlock(); } } } }
/** * Asynchronous sequence update operation. Will add given amount to the sequence value. * * @param l Increment amount. * @param updateCall Cache call that will update sequence reservation count in accordance with l. * @param updated If {@code true}, will return sequence value after update, otherwise will return * sequence value prior to update. * @return Future indicating sequence value. * @throws GridException If update failed. */ private GridFuture<Long> internalUpdateAsync( long l, @Nullable Callable<Long> updateCall, boolean updated) throws GridException { checkRemoved(); A.ensure(l > 0, " Parameter mustn't be less then 1: " + l); lock.lock(); try { // If reserved range isn't exhausted. if (locVal + l <= upBound) { long curVal = locVal; locVal += l; return new GridFinishedFuture<Long>(ctx.kernalContext(), updated ? locVal : curVal); } } finally { lock.unlock(); } if (updateCall == null) updateCall = internalUpdate(l, updated); while (true) { if (updateGuard.compareAndSet(false, true)) { try { // This call must be outside lock. return ctx.closures().callLocalSafe(updateCall, true); } finally { lock.lock(); try { updateGuard.set(false); cond.signalAll(); } finally { lock.unlock(); } } } else { lock.lock(); try { while (locVal >= upBound && updateGuard.get()) { try { cond.await(500, MILLISECONDS); } catch (InterruptedException e) { throw new GridInterruptedException(e); } } checkRemoved(); // If reserved range isn't exhausted. if (locVal + l <= upBound) { long curVal = locVal; locVal += l; return new GridFinishedFuture<Long>(ctx.kernalContext(), updated ? locVal : curVal); } } finally { lock.unlock(); } } } }