/** {@inheritDoc} */ @Override public void saveCheckpoint( String key, Object state, GridTaskSessionScope scope, long timeout, boolean overwrite) throws GridException { A.notNull(key, "key"); A.ensure(timeout >= 0, "timeout >= 0"); synchronized (mux) { if (closed) throw new GridException("Failed to save checkpoint (session closed): " + this); } ctx.checkpoint().storeCheckpoint(this, key, state, scope, timeout, overwrite); }
/** {@inheritDoc} */ @Override public R get(long timeout, TimeUnit unit) throws IgniteCheckedException { A.ensure(timeout >= 0, "timeout cannot be negative: " + timeout); A.notNull(unit, "unit"); try { return get0(unit.toNanos(timeout)); } catch (InterruptedException e) { Thread.currentThread().interrupt(); throw new IgniteInterruptedCheckedException( "Got interrupted while waiting for future to complete.", e); } }
/** * 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; }
/** {@inheritDoc} */ @Override public void addAttributeListener(GridTaskSessionAttributeListener lsnr, boolean rewind) { A.notNull(lsnr, "lsnr"); Map<Object, Object> attrs = null; List<GridTaskSessionAttributeListener> lsnrs; synchronized (mux) { lsnrs = new ArrayList<GridTaskSessionAttributeListener>(this.lsnrs.size()); lsnrs.addAll(this.lsnrs); lsnrs.add(lsnr); lsnrs = Collections.unmodifiableList(lsnrs); this.lsnrs = lsnrs; if (rewind) attrs = new HashMap<Object, Object>(this.attrs); } if (rewind) { for (Map.Entry<Object, Object> entry : attrs.entrySet()) { for (GridTaskSessionAttributeListener l : lsnrs) { l.onAttributeSet(entry.getKey(), entry.getValue()); } } } }
/** {@inheritDoc} */ @Override public Map<?, ?> waitForAttributes(Collection<?> keys, long timeout) throws InterruptedException { A.notNull(keys, "keys"); if (keys.isEmpty()) return Collections.emptyMap(); if (timeout == 0) timeout = Long.MAX_VALUE; long now = System.currentTimeMillis(); // Prevent overflow. long end = now + timeout < 0 ? Long.MAX_VALUE : now + timeout; // Don't wait longer than session timeout. if (end > endTime) end = endTime; synchronized (mux) { while (!closed && !attrs.keySet().containsAll(keys) && now < end) { mux.wait(end - now); now = System.currentTimeMillis(); } if (closed) throw new InterruptedException("Session was closed: " + this); Map<Object, Object> retVal = new HashMap<Object, Object>(keys.size()); for (Object key : keys) retVal.put(key, attrs.get(key)); return retVal; } }
/** {@inheritDoc} */ @Override public boolean waitForAttributes(Map<?, ?> attrs, long timeout) throws InterruptedException { A.notNull(attrs, "attrs"); if (attrs.isEmpty()) { return true; } if (timeout == 0) timeout = Long.MAX_VALUE; long now = System.currentTimeMillis(); // Prevent overflow. long end = now + timeout < 0 ? Long.MAX_VALUE : now + timeout; // Don't wait longer than session timeout. if (end > endTime) end = endTime; synchronized (mux) { boolean isFound = false; while (!closed && !(isFound = this.attrs.entrySet().containsAll(attrs.entrySet())) && now < end) { mux.wait(end - now); now = System.currentTimeMillis(); } if (closed) throw new InterruptedException("Session was closed: " + this); return isFound; } }
/** {@inheritDoc} */ @SuppressWarnings("unchecked") @Override public <K, V> V waitForAttribute(K key, long timeout) throws InterruptedException { A.notNull(key, "key"); if (timeout == 0) timeout = Long.MAX_VALUE; long now = System.currentTimeMillis(); // Prevent overflow. long end = now + timeout < 0 ? Long.MAX_VALUE : now + timeout; // Don't wait longer than session timeout. if (end > endTime) end = endTime; synchronized (mux) { while (!closed && !attrs.containsKey(key) && now < end) { mux.wait(end - now); now = System.currentTimeMillis(); } if (closed) throw new InterruptedException("Session was closed: " + this); return (V) attrs.get(key); } }
/** {@inheritDoc} */ @Override public boolean waitForAttribute(Object key, Object val, long timeout) throws InterruptedException { A.notNull(key, "key"); if (timeout == 0) timeout = Long.MAX_VALUE; long now = System.currentTimeMillis(); // Prevent overflow. long end = now + timeout < 0 ? Long.MAX_VALUE : now + timeout; // Don't wait longer than session timeout. if (end > endTime) end = endTime; synchronized (mux) { boolean isFound = false; while (!closed && !(isFound = isAttributeSet(key, val)) && now < end) { mux.wait(end - now); now = System.currentTimeMillis(); } if (closed) throw new InterruptedException("Session was closed: " + this); return isFound; } }
/** * Removes given value from the set and returns the instance stored in the set or {@code null} if * value was not found. * * @param val Value to remove. * @return The instance that was stored in the set or {@code null}. */ @Nullable public V removex(V val) { A.notNull(val, "val"); if (comp == null || !strict) { for (Iterator<V> it = vals.iterator(); it.hasNext(); ) { V v = it.next(); if (v.equals(val)) { it.remove(); return v; } } return null; } assert comp != null && strict; for (Iterator<V> it = vals.iterator(); it.hasNext(); ) { V v = it.next(); // Prefer equals to comparator. if (v.equals(val)) { it.remove(); return v; } if (comp.compare(v, val) > 0) break; } return null; }
/** {@inheritDoc} */ @SuppressWarnings({"unchecked"}) @Override public boolean remove(Object val) { A.notNull(val, "val"); return removex((V) val) != null; }
/** * Either adds a value to set or does nothing if value is already present. * * @param val Value to add. * @return The instance of value from this set or {@code null} if value was added. */ @Nullable public V addx(V val) { A.notNull(val, "val"); if (comp == null) { for (V v : vals) if (v.equals(val)) return v; vals.add(val); return null; } if (strict) { for (ListIterator<V> it = vals.listIterator(); it.hasNext(); ) { V v = it.next(); // Prefer equals to comparator. if (v.equals(val)) return v; int c = comp.compare(v, val); if (c == 0) throw new IllegalStateException("Inconsistent equals and compare methods."); if (c > 0) { // Back up. it.previous(); it.add(val); return null; } } vals.add(val); return null; } // Full scan first. for (V v : vals) if (v.equals(val)) return v; for (ListIterator<V> it = vals.listIterator(); it.hasNext(); ) { V v = it.next(); if (comp.compare(v, val) > 0) { do { // Back up. v = it.previous(); } while (comp.compare(v, val) == 0); it.add(val); return null; } } vals.add(val); return null; }
/** * 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; }
/** * @param keys Keys. * @return If near entries for given keys are locked. */ public boolean isAllLockedNearOnly(Iterable<? extends K> keys) { A.notNull(keys, "keys"); for (K key : keys) if (!isLockedNearOnly(key)) return false; return true; }
/** * Gets option value. If this option is "none" this method will throw {@link * IllegalArgumentException} exception. Note that this method may return {@code null}. * * @return An option value. * @throws IllegalArgumentException Thrown in case if this option is "none". */ public T get() { A.ensure(this != NONE, "Value 'none' of GridOpt cannot be used."); assert val != null; return val; }
/** * Sets JEXL context variable value and returns {@code this}. * * @param var Name of the variable in JEXL context (new or existing). * @param val Value to be set or overridden in JEXL context. * @return This predicate so that this call can be chained. */ public GridJexlPredicate2<T1, T2> with(String var, @Nullable Object val) { A.notNull(var, "var"); map.put(var, val); return this; }
/** * 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; }
/** * Creates JEXL predicate with given parameters. * * @param exprStr JEXL boolean expression. Note that non-boolean return value will evaluate this * predicate to {@code false}. * @param var1 Name of the 1st bound variable in JEXL expression. * @param var2 Name of the 2nd bound variable in JEXL expression. */ public GridJexlPredicate2(String exprStr, String var1, String var2) { A.notNull(exprStr, "exprStr", var1, "var1", var2, "var2"); this.exprStr = exprStr; this.var1 = var1; this.var2 = var2; }
/** {@inheritDoc} */ @Override public R get(long timeout, TimeUnit unit) throws GridException { A.ensure(timeout >= 0, "timeout cannot be negative: " + timeout); A.notNull(unit, "unit"); checkValid(); try { long now = System.currentTimeMillis(); long end = timeout == 0 ? Long.MAX_VALUE : now + MILLISECONDS.convert(timeout, unit); // Account for overflow. if (end < 0) end = Long.MAX_VALUE; synchronized (mux) { while (!done && !cancelled && now < end) { mux.wait(end - now); if (!done) now = System.currentTimeMillis(); } if (done) { if (err != null) throw U.cast(err); return res; } if (cancelled) throw new GridFutureCancelledException("Future was cancelled: " + this); throw new GridFutureTimeoutException( "Timeout was reached before computation completed [duration=" + duration() + "ms, timeout=" + unit.toMillis(timeout) + "ms]"); } } catch (InterruptedException e) { throw new GridInterruptedException( "Got interrupted while waiting for future to complete [duration=" + duration() + "ms, timeout=" + unit.toMillis(timeout) + "ms]", e); } }
/** {@inheritDoc} */ @Override public CacheQuery<T> pageSize(int pageSize) { A.ensure(pageSize > 0, "pageSize > 0"); this.pageSize = pageSize; return this; }
/** {@inheritDoc} */ @Override public CacheQuery<T> timeout(long timeout) { A.ensure(timeout >= 0, "timeout >= 0"); this.timeout = timeout; return this; }
/** {@inheritDoc} */ @Override public <T extends GridEvent> Collection<T> localEvents(GridPredicate<T> p) { A.notNull(p, "p"); cleanupQueue(); return F.retain((Collection<T>) evts, true, p); }
/** {@inheritDoc} */ @Override public void setAttributes(Map<?, ?> attrs) { A.notNull(attrs, "attrs"); synchronized (this.attrs) { this.attrs.putAll(attrs); } }
/** {@inheritDoc} */ @Override public void setAttribute(Object key, @Nullable Object val) { A.notNull(key, "key"); synchronized (attrs) { attrs.put(key, val); } }
/** {@inheritDoc} */ @SuppressWarnings("unchecked") @Override public <K, V> V getAttribute(K key) { A.notNull(key, "key"); synchronized (attrs) { return (V) attrs.get(key); } }
/** {@inheritDoc} */ @Override public GridJobSibling getJobSibling(GridUuid jobId) throws GridException { A.notNull(jobId, "jobId"); Collection<GridJobSibling> tmp = getJobSiblings(); for (GridJobSibling sibling : tmp) if (sibling.getJobId().equals(jobId)) return sibling; return null; }
/** {@inheritDoc} */ @Override public boolean removeCheckpoint(String key) throws GridException { A.notNull(key, "key"); synchronized (mux) { if (closed) throw new GridException("Failed to remove checkpoint (session closed): " + this); } return ctx.checkpoint().removeCheckpoint(this, key); }
/** {@inheritDoc} */ @SuppressWarnings("unchecked") @Override public <T> T loadCheckpoint(String key) throws GridException { A.notNull(key, "key"); synchronized (mux) { if (closed) throw new GridException("Failed to load checkpoint (session closed): " + this); } return (T) ctx.checkpoint().loadCheckpoint(this, key); }
public Matrix<T, A> multiply(Matrix<T, A> right) throws MatrixException { Matrix<T, A> temp = new Matrix<T, A>(arithmetics, rowSize, right.columnSize); if (columnSize != right.rowSize) throw new MatrixException("Cannot multiply matrices of incompatible sizes"); setup(temp, rowSize, right.columnSize); for (int i = 0; i < rowSize; ++i) { for (int j = 0; j < right.columnSize; ++j) { T sum = arithmetics.zero(); for (int k = 0; k < columnSize; ++k) { sum = arithmetics.add(sum, arithmetics.multiply(matrix[i][k], right.matrix[k][j])); } temp.matrix[i][j] = sum; } } return temp; }
/** {@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; }