/** * Constructs a new map containing the elements in the specified map, that orders its elements * according to their {@linkplain Comparable natural ordering}. * * @param max Upper bound of this map. * @param map The elements that will comprise the new map. * @throws ClassCastException if the elements in <tt>map</tt> are not {@link Comparable}, or are * not mutually comparable. * @throws NullPointerException if the specified map or any of its elements are {@code null}. */ public GridBoundedConcurrentOrderedMap(int max, Map<? extends K, ? extends V> map) { super(map); A.ensure(max > 0, "max > 0"); this.max = max; }
/** * Constructs a new map containing the same elements and using the same ordering as the specified * sorted map. * * @param max Upper bound of this map. * @param map Sorted map whose elements will comprise the new map. * @throws NullPointerException if the specified sorted map or any of its elements are {@code * null}. */ public GridBoundedConcurrentOrderedMap(int max, SortedMap<K, V> map) { super(map); A.ensure(max > 0, "max > 0"); this.max = max; }
/** * Constructs a new, empty set that orders its elements according to the specified comparator. * * @param max Upper bound of this map. * @param comparator The comparator that will be used to order this map. If <tt>null</tt>, the * {@linkplain Comparable natural ordering} of the elements will be used. */ public GridBoundedConcurrentOrderedMap(int max, Comparator<? super K> comparator) { super(comparator); A.ensure(max > 0, "max > 0"); this.max = max; }
/** {@inheritDoc} */ @Nullable @Override public V put(K k, V v) { A.notNull(k, "k", v, "v"); V ret = super.put(k, v); onPut(); return ret; }
/** {@inheritDoc} */ @Nullable @Override public V putIfAbsent(K k, V v) { A.notNull(k, "k", v, "v"); V ret = super.putIfAbsent(k, v); // Handle size only if put succeeded. if (ret == null) onPut(); return ret; }
/** * 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(); } }
/** {@inheritDoc} */ @Override public void autoFlushFrequency(long autoFlushFreq) { A.ensure(autoFlushFreq >= 0, "autoFlushFreq >= 0"); long old = this.autoFlushFreq; if (autoFlushFreq != old) { this.autoFlushFreq = autoFlushFreq; if (autoFlushFreq != 0 && old == 0) flushQ.add(this); else if (autoFlushFreq == 0) flushQ.remove(this); } }
/** {@inheritDoc} */ @Override public GridFuture<?> addData(Collection<? extends Map.Entry<K, V>> entries) { A.notEmpty(entries, "entries"); enterBusy(); try { GridFutureAdapter<Object> resFut = new GridFutureAdapter<>(ctx); activeFuts.add(resFut); resFut.listenAsync(rmvActiveFut); Collection<K> keys = new GridConcurrentHashSet<>(entries.size(), 1.0f, 16); for (Map.Entry<K, V> entry : entries) keys.add(entry.getKey()); load0(entries, resFut, keys, 0); return resFut; } finally { leaveBusy(); } }
/** {@inheritDoc} */ @Override public GridFuture<?> addData(Map<K, V> entries) throws IllegalStateException { A.notNull(entries, "entries"); return addData(entries.entrySet()); }
/** {@inheritDoc} */ @Override public void perNodeBufferSize(int bufSize) { A.ensure(bufSize > 0, "bufSize > 0"); this.bufSize = bufSize; }
/** {@inheritDoc} */ @Override public void updater(GridDataLoadCacheUpdater<K, V> updater) { A.notNull(updater, "updater"); this.updater = updater; }
/** {@inheritDoc} */ @Override public long addAndGet(long l) throws GridException { A.ensure(l > 0, " Parameter mustn't be less then 1: " + l); return internalUpdate(l, null, true); }
/** * Constructs a new, empty map that orders its elements according to their {@linkplain Comparable * natural ordering}. * * @param max Upper bound of this map. */ public GridBoundedConcurrentOrderedMap(int max) { A.ensure(max > 0, "max > 0"); this.max = max; }
/** * 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(); } } } }
/** {@inheritDoc} */ @Override public GridFuture<Long> getAndAddAsync(long l) throws GridException { A.ensure(l > 0, " Parameter mustn't be less then 1: " + l); return internalUpdateAsync(l, null, false); }
/** {@inheritDoc} */ @Override public GridFuture<?> addData(Map.Entry<K, V> entry) throws GridException, IllegalStateException { A.notNull(entry, "entry"); return addData(F.asList(entry)); }
/** {@inheritDoc} */ @Override public GridFuture<?> addData(K key, V val) throws GridException, IllegalStateException { A.notNull(key, "key"); return addData(new Entry0<>(key, val)); }
/** {@inheritDoc} */ @Override public int countDown(int val) throws GridException { A.ensure(val > 0, "val should be positive"); return CU.outTx(new CountDownCallable(val), ctx); }