[ViewVC] Diff of: jsr166/jsr166/src/jsr166e/ConcurrentHashMapV8.java

Comparing jsr166/src/jsr166e/ConcurrentHashMapV8.java (file contents):
Revision 1.65 by jsr166, Sun Oct 21 02:37:58 2012 UTC vs.
Revision 1.79 by dl, Fri Nov 23 17:50:51 2012 UTC

#	Line 5 \| Line 5
5		*/
6
7		package jsr166e;
8	<	import jsr166e.LongAdder;
9	<	import jsr166e.ForkJoinPool;
10	<	import jsr166e.ForkJoinTask;
8	>
9	>	import java.util.Comparator;
10	>	import java.util.Arrays;
11	>	import java.util.Map;
12	>	import java.util.Set;
13	>	import java.util.Collection;
14	>	import java.util.AbstractMap;
15	>	import java.util.AbstractSet;
16	>	import java.util.AbstractCollection;
17	>	import java.util.Hashtable;
18	>	import java.util.HashMap;
19	>	import java.util.Iterator;
20	>	import java.util.Enumeration;
21	>	import java.util.ConcurrentModificationException;
22	>	import java.util.NoSuchElementException;
23	>	import java.util.concurrent.ConcurrentMap;
24	>	import java.util.concurrent.ThreadLocalRandom;
25	>	import java.util.concurrent.locks.LockSupport;
26	>	import java.util.concurrent.locks.AbstractQueuedSynchronizer;
27	>	import java.util.concurrent.atomic.AtomicReference;
28	>
29	>	import java.io.Serializable;
30
31		import java.util.Comparator;
32		import java.util.Arrays;
#	Line 43 \| Line 62 \| import java.io.Serializable;
62		* interoperable with {@code Hashtable} in programs that rely on its
63		* thread safety but not on its synchronization details.
64		*
65	<	* <p> Retrieval operations (including {@code get}) generally do not
65	>	* <p>Retrieval operations (including {@code get}) generally do not
66		* block, so may overlap with update operations (including {@code put}
67		* and {@code remove}). Retrievals reflect the results of the most
68		* recently <em>completed</em> update operations holding upon their
#	Line 64 \| Line 83 \| import java.io.Serializable;
83		* that may be adequate for monitoring or estimation purposes, but not
84		* for program control.
85		*
86	<	* <p> The table is dynamically expanded when there are too many
86	>	* <p>The table is dynamically expanded when there are too many
87		* collisions (i.e., keys that have distinct hash codes but fall into
88		* the same slot modulo the table size), with the expected average
89		* effect of maintaining roughly two bins per mapping (corresponding
#	Line 85 \| Line 104 \| import java.io.Serializable;
104		* {@code hashCode()} is a sure way to slow down performance of any
105		* hash table.
106		*
107	+	* <p>A {@link Set} projection of a ConcurrentHashMapV8 may be created
108	+	* (using {@link #newKeySet()} or {@link #newKeySet(int)}), or viewed
109	+	* (using {@link #keySet(Object)} when only keys are of interest, and the
110	+	* mapped values are (perhaps transiently) not used or all take the
111	+	* same mapping value.
112	+	*
113	+	* <p>A ConcurrentHashMapV8 can be used as scalable frequency map (a
114	+	* form of histogram or multiset) by using {@link LongAdder} values
115	+	* and initializing via {@link #computeIfAbsent}. For example, to add
116	+	* a count to a {@code ConcurrentHashMapV8<String,LongAdder> freqs}, you
117	+	* can use {@code freqs.computeIfAbsent(k -> new
118	+	* LongAdder()).increment();}
119	+	*
120		* <p>This class and its views and iterators implement all of the
121		* <em>optional</em> methods of the {@link Map} and {@link Iterator}
122		* interfaces.
123		*
124	<	* <p> Like {@link Hashtable} but unlike {@link HashMap}, this class
124	>	* <p>Like {@link Hashtable} but unlike {@link HashMap}, this class
125		* does <em>not</em> allow {@code null} to be used as a key or value.
126		*
127	+	* <p>ConcurrentHashMapV8s support parallel operations using the {@link
128	+	* ForkJoinPool#commonPool}. (Tasks that may be used in other contexts
129	+	* are available in class {@link ForkJoinTasks}). These operations are
130	+	* designed to be safely, and often sensibly, applied even with maps
131	+	* that are being concurrently updated by other threads; for example,
132	+	* when computing a snapshot summary of the values in a shared
133	+	* registry. There are three kinds of operation, each with four
134	+	* forms, accepting functions with Keys, Values, Entries, and (Key,
135	+	* Value) arguments and/or return values. (The first three forms are
136	+	* also available via the {@link #keySet()}, {@link #values()} and
137	+	* {@link #entrySet()} views). Because the elements of a
138	+	* ConcurrentHashMapV8 are not ordered in any particular way, and may be
139	+	* processed in different orders in different parallel executions, the
140	+	* correctness of supplied functions should not depend on any
141	+	* ordering, or on any other objects or values that may transiently
142	+	* change while computation is in progress; and except for forEach
143	+	* actions, should ideally be side-effect-free.
144	+	*
145	+	* <ul>
146	+	* <li> forEach: Perform a given action on each element.
147	+	* A variant form applies a given transformation on each element
148	+	* before performing the action.</li>
149	+	*
150	+	* <li> search: Return the first available non-null result of
151	+	* applying a given function on each element; skipping further
152	+	* search when a result is found.</li>
153	+	*
154	+	* <li> reduce: Accumulate each element. The supplied reduction
155	+	* function cannot rely on ordering (more formally, it should be
156	+	* both associative and commutative). There are five variants:
157	+	*
158	+	* <ul>
159	+	*
160	+	* <li> Plain reductions. (There is not a form of this method for
161	+	* (key, value) function arguments since there is no corresponding
162	+	* return type.)</li>
163	+	*
164	+	* <li> Mapped reductions that accumulate the results of a given
165	+	* function applied to each element.</li>
166	+	*
167	+	* <li> Reductions to scalar doubles, longs, and ints, using a
168	+	* given basis value.</li>
169	+	*
170	+	* </li>
171	+	* </ul>
172	+	* </ul>
173	+	*
174	+	* <p>The concurrency properties of bulk operations follow
175	+	* from those of ConcurrentHashMapV8: Any non-null result returned
176	+	* from {@code get(key)} and related access methods bears a
177	+	* happens-before relation with the associated insertion or
178	+	* update. The result of any bulk operation reflects the
179	+	* composition of these per-element relations (but is not
180	+	* necessarily atomic with respect to the map as a whole unless it
181	+	* is somehow known to be quiescent). Conversely, because keys
182	+	* and values in the map are never null, null serves as a reliable
183	+	* atomic indicator of the current lack of any result. To
184	+	* maintain this property, null serves as an implicit basis for
185	+	* all non-scalar reduction operations. For the double, long, and
186	+	* int versions, the basis should be one that, when combined with
187	+	* any other value, returns that other value (more formally, it
188	+	* should be the identity element for the reduction). Most common
189	+	* reductions have these properties; for example, computing a sum
190	+	* with basis 0 or a minimum with basis MAX_VALUE.
191	+	*
192	+	* <p>Search and transformation functions provided as arguments
193	+	* should similarly return null to indicate the lack of any result
194	+	* (in which case it is not used). In the case of mapped
195	+	* reductions, this also enables transformations to serve as
196	+	* filters, returning null (or, in the case of primitive
197	+	* specializations, the identity basis) if the element should not
198	+	* be combined. You can create compound transformations and
199	+	* filterings by composing them yourself under this "null means
200	+	* there is nothing there now" rule before using them in search or
201	+	* reduce operations.
202	+	*
203	+	* <p>Methods accepting and/or returning Entry arguments maintain
204	+	* key-value associations. They may be useful for example when
205	+	* finding the key for the greatest value. Note that "plain" Entry
206	+	* arguments can be supplied using {@code new
207	+	* AbstractMap.SimpleEntry(k,v)}.
208	+	*
209	+	* <p>Bulk operations may complete abruptly, throwing an
210	+	* exception encountered in the application of a supplied
211	+	* function. Bear in mind when handling such exceptions that other
212	+	* concurrently executing functions could also have thrown
213	+	* exceptions, or would have done so if the first exception had
214	+	* not occurred.
215	+	*
216	+	* <p>Parallel speedups for bulk operations compared to sequential
217	+	* processing are common but not guaranteed. Operations involving
218	+	* brief functions on small maps may execute more slowly than
219	+	* sequential loops if the underlying work to parallelize the
220	+	* computation is more expensive than the computation itself.
221	+	* Similarly, parallelization may not lead to much actual parallelism
222	+	* if all processors are busy performing unrelated tasks.
223	+	*
224	+	* <p>All arguments to all task methods must be non-null.
225	+	*
226	+	* <p><em>jsr166e note: During transition, this class
227	+	* uses nested functional interfaces with different names but the
228	+	* same forms as those expected for JDK8.</em>
229	+	*
230		* <p>This class is a member of the
231		* <a href="{@docRoot}/../technotes/guides/collections/index.html">
232		* Java Collections Framework</a>.
233		*
99	–	* <p><em>jsr166e note: This class is a candidate replacement for
100	–	* java.util.concurrent.ConcurrentHashMap. During transition, this
101	–	* class declares and uses nested functional interfaces with different
102	–	* names but the same forms as those expected for JDK8.<em>
103	–	*
234		* @since 1.5
235		* @author Doug Lea
236		* @param <K> the type of keys maintained by this map
#	Line 117 \| Line 247 \| public class ConcurrentHashMapV8<K, V>
247		* portion of the elements, and so may be amenable to parallel
248		* execution.
249		*
250	<	* <p> This interface exports a subset of expected JDK8
250	>	* <p>This interface exports a subset of expected JDK8
251		* functionality.
252		*
253		* <p>Sample usage: Here is one (of the several) ways to compute
#	Line 179 \| Line 309 \| public class ConcurrentHashMapV8<K, V>
309		Spliterator<T> split();
310		}
311
312	+
313		/*
314		* Overview:
315		*
#	Line 461 \| Line 592 \| public class ConcurrentHashMapV8<K, V>
592		private transient volatile int sizeCtl;
593
594		// views
595	<	private transient KeySet<K,V> keySet;
596	<	private transient Values<K,V> values;
597	<	private transient EntrySet<K,V> entrySet;
595	>	private transient KeySetView<K,V> keySet;
596	>	private transient ValuesView<K,V> values;
597	>	private transient EntrySetView<K,V> entrySet;
598
599		/** For serialization compatibility. Null unless serialized; see below */
600		private Segment<K,V>[] segments;
#	Line 562 \| Line 693 \| public class ConcurrentHashMapV8<K, V>
693		try {
694		wait();
695		} catch (InterruptedException ie) {
696	<	Thread.currentThread().interrupt();
696	>	try {
697	>	Thread.currentThread().interrupt();
698	>	} catch (SecurityException ignore) {
699	>	}
700		}
701		}
702		else
#	Line 2243 \| Line 2377 \| public class ConcurrentHashMapV8<K, V>
2377		* change (including to null, indicating deletion), field nextVal
2378		* might not be accurate at point of use, but still maintains the
2379		* weak consistency property of holding a value that was once
2380	<	* valid.
2380	>	* valid. To support iterator.remove, the nextKey field is not
2381	>	* updated (nulled out) when the iterator cannot advance.
2382		*
2383		* Internal traversals directly access these fields, as in:
2384		* {@code while (it.advance() != null) { process(it.nextKey); }}
#	Line 2270 \| Line 2405 \| public class ConcurrentHashMapV8<K, V>
2405		* across threads, iteration terminates if a bounds checks fails
2406		* for a table read.
2407		*
2408	<	* This class extends ForkJoinTask to streamline parallel
2409	<	* iteration in bulk operations (see BulkTask). This adds only an
2410	<	* int of space overhead, which is close enough to negligible in
2411	<	* cases where it is not needed to not worry about it. Because
2412	<	* ForkJoinTask is Serializable, but iterators need not be, we
2413	<	* need to add warning suppressions.
2408	>	* This class extends CountedCompleter to streamline parallel
2409	>	* iteration in bulk operations. This adds only a few fields of
2410	>	* space overhead, which is small enough in cases where it is not
2411	>	* needed to not worry about it. Because CountedCompleter is
2412	>	* Serializable, but iterators need not be, we need to add warning
2413	>	* suppressions.
2414		*/
2415	<	@SuppressWarnings("serial") static class Traverser<K,V,R> extends ForkJoinTask<R> {
2415	>	@SuppressWarnings("serial") static class Traverser<K,V,R> extends CountedCompleter<R> {
2416		final ConcurrentHashMapV8<K, V> map;
2417		Node next; // the next entry to use
2283	–	Node last; // the last entry used
2418		Object nextKey; // cached key field of next
2419		Object nextVal; // cached val field of next
2420		Node[] tab; // current table; updated if resized
#	Line 2288 \| Line 2422 \| public class ConcurrentHashMapV8<K, V>
2422		int baseIndex; // current index of initial table
2423		int baseLimit; // index bound for initial table
2424		int baseSize; // initial table size
2425	+	int batch; // split control
2426
2427		/** Creates iterator for all entries in the table. */
2428		Traverser(ConcurrentHashMapV8<K, V> map) {
2429		this.map = map;
2430		}
2431
2432	<	/** Creates iterator for split() methods */
2433	<	Traverser(Traverser<K,V,?> it) {
2434	<	ConcurrentHashMapV8<K, V> m; Node[] t;
2435	<	if ((m = this.map = it.map) == null)
2436	<	t = null;
2437	<	else if ((t = it.tab) == null && // force parent tab initialization
2438	<	(t = it.tab = m.table) != null)
2439	<	it.baseLimit = it.baseSize = t.length;
2440	<	this.tab = t;
2441	<	this.baseSize = it.baseSize;
2442	<	it.baseLimit = this.index = this.baseIndex =
2443	<	((this.baseLimit = it.baseLimit) + it.baseIndex + 1) >>> 1;
2432	>	/** Creates iterator for split() methods and task constructors */
2433	>	Traverser(ConcurrentHashMapV8<K,V> map, Traverser<K,V,?> it, int batch) {
2434	>	super(it);
2435	>	this.batch = batch;
2436	>	if ((this.map = map) != null && it != null) { // split parent
2437	>	Node[] t;
2438	>	if ((t = it.tab) == null &&
2439	>	(t = it.tab = map.table) != null)
2440	>	it.baseLimit = it.baseSize = t.length;
2441	>	this.tab = t;
2442	>	this.baseSize = it.baseSize;
2443	>	int hi = this.baseLimit = it.baseLimit;
2444	>	it.baseLimit = this.index = this.baseIndex =
2445	>	(hi + it.baseIndex + 1) >>> 1;
2446	>	}
2447		}
2448
2449		/**
#	Line 2313 \| Line 2451 \| public class ConcurrentHashMapV8<K, V>
2451		* See above for explanation.
2452		*/
2453		final Object advance() {
2454	<	Node e = last = next;
2454	>	Node e = next;
2455		Object ev = null;
2456		outer: do {
2457		if (e != null) // advance past used/skipped node
#	Line 2347 \| Line 2485 \| public class ConcurrentHashMapV8<K, V>
2485		}
2486
2487		public final void remove() {
2488	<	if (nextVal == null && last == null)
2489	<	advance();
2352	<	Node e = last;
2353	<	if (e == null)
2488	>	Object k = nextKey;
2489	>	if (k == null && (advance() == null \|\| (k = nextKey) == null))
2490		throw new IllegalStateException();
2491	<	last = null;
2356	<	map.remove(e.key);
2491	>	map.internalReplace(k, null, null);
2492		}
2493
2494		public final boolean hasNext() {
#	Line 2361 \| Line 2496 \| public class ConcurrentHashMapV8<K, V>
2496		}
2497
2498		public final boolean hasMoreElements() { return hasNext(); }
2499	<	public final void setRawResult(Object x) { }
2500	<	public R getRawResult() { return null; }
2501	<	public boolean exec() { return true; }
2499	>
2500	>	public void compute() { } // default no-op CountedCompleter body
2501	>
2502	>	/**
2503	>	* Returns a batch value > 0 if this task should (and must) be
2504	>	* split, if so, adding to pending count, and in any case
2505	>	* updating batch value. The initial batch value is approx
2506	>	* exp2 of the number of times (minus one) to split task by
2507	>	* two before executing leaf action. This value is faster to
2508	>	* compute and more convenient to use as a guide to splitting
2509	>	* than is the depth, since it is used while dividing by two
2510	>	* anyway.
2511	>	*/
2512	>	final int preSplit() {
2513	>	ConcurrentHashMapV8<K, V> m; int b; Node[] t; ForkJoinPool pool;
2514	>	if ((b = batch) < 0 && (m = map) != null) { // force initialization
2515	>	if ((t = tab) == null && (t = tab = m.table) != null)
2516	>	baseLimit = baseSize = t.length;
2517	>	if (t != null) {
2518	>	long n = m.counter.sum();
2519	>	int par = ((pool = getPool()) == null) ?
2520	>	ForkJoinPool.getCommonPoolParallelism() :
2521	>	pool.getParallelism();
2522	>	int sp = par << 3; // slack of 8
2523	>	b = (n <= 0L) ? 0 : (n < (long)sp) ? (int)n : sp;
2524	>	}
2525	>	}
2526	>	b = (b <= 1 \|\| baseIndex == baseLimit)? 0 : (b >>> 1);
2527	>	if ((batch = b) > 0)
2528	>	addToPendingCount(1);
2529	>	return b;
2530	>	}
2531	>
2532		}
2533
2534		/* ---------------- Public operations -------------- */
#	Line 2457 \| Line 2622 \| public class ConcurrentHashMapV8<K, V>
2622		}
2623
2624		/**
2625	+	* Creates a new {@link Set} backed by a ConcurrentHashMapV8
2626	+	* from the given type to {@code Boolean.TRUE}.
2627	+	*
2628	+	* @return the new set
2629	+	*/
2630	+	public static <K> KeySetView<K,Boolean> newKeySet() {
2631	+	return new KeySetView<K,Boolean>(new ConcurrentHashMapV8<K,Boolean>(),
2632	+	Boolean.TRUE);
2633	+	}
2634	+
2635	+	/**
2636	+	* Creates a new {@link Set} backed by a ConcurrentHashMapV8
2637	+	* from the given type to {@code Boolean.TRUE}.
2638	+	*
2639	+	* @param initialCapacity The implementation performs internal
2640	+	* sizing to accommodate this many elements.
2641	+	* @throws IllegalArgumentException if the initial capacity of
2642	+	* elements is negative
2643	+	* @return the new set
2644	+	*/
2645	+	public static <K> KeySetView<K,Boolean> newKeySet(int initialCapacity) {
2646	+	return new KeySetView<K,Boolean>(new ConcurrentHashMapV8<K,Boolean>(initialCapacity),
2647	+	Boolean.TRUE);
2648	+	}
2649	+
2650	+	/**
2651		* {@inheritDoc}
2652		*/
2653		public boolean isEmpty() {
#	Line 2475 \| Line 2666 \| public class ConcurrentHashMapV8<K, V>
2666
2667		/**
2668		* Returns the number of mappings. This method should be used
2669	<	* instead of {@link #size} because a ConcurrentHashMap may
2669	>	* instead of {@link #size} because a ConcurrentHashMapV8 may
2670		* contain more mappings than can be represented as an int. The
2671	<	* value returned is a snapshot; the actual count may differ if
2672	<	* there are ongoing concurrent insertions or removals.
2671	>	* value returned is an estimate; the actual count may differ if
2672	>	* there are concurrent insertions or removals.
2673		*
2674		* @return the number of mappings
2675		*/
#	Line 2506 \| Line 2697 \| public class ConcurrentHashMapV8<K, V>
2697
2698		/**
2699		* Returns the value to which the specified key is mapped,
2700	<	* or the gieven defaultValue if this map contains no mapping for the key.
2700	>	* or the given defaultValue if this map contains no mapping for the key.
2701		*
2702		* @param key the key
2703		* @param defaultValue the value to return if this map contains
2704	<	* no mapping for the given key.
2704	>	* no mapping for the given key
2705		* @return the mapping for the key, if present; else the defaultValue
2706		* @throws NullPointerException if the specified key is null
2707		*/
#	Line 2581 \| Line 2772 \| public class ConcurrentHashMapV8<K, V>
2772		* Maps the specified key to the specified value in this table.
2773		* Neither the key nor the value can be null.
2774		*
2775	<	* <p> The value can be retrieved by calling the {@code get} method
2775	>	* <p>The value can be retrieved by calling the {@code get} method
2776		* with a key that is equal to the original key.
2777		*
2778		* @param key key with which the specified value is to be associated
#	Line 2650 \| Line 2841 \| public class ConcurrentHashMapV8<K, V>
2841		* @param key key with which the specified value is to be associated
2842		* @param mappingFunction the function to compute a value
2843		* @return the current (existing or computed) value associated with
2844	<	* the specified key, or null if the computed value is null.
2844	>	* the specified key, or null if the computed value is null
2845		* @throws NullPointerException if the specified key or mappingFunction
2846		* is null
2847		* @throws IllegalStateException if the computation detectably
#	Line 2848 \| Line 3039 \| public class ConcurrentHashMapV8<K, V>
3039		/**
3040		* Returns a {@link Set} view of the keys contained in this map.
3041		* The set is backed by the map, so changes to the map are
3042	<	* reflected in the set, and vice-versa. The set supports element
2852	<	* removal, which removes the corresponding mapping from this map,
2853	<	* via the {@code Iterator.remove}, {@code Set.remove},
2854	<	* {@code removeAll}, {@code retainAll}, and {@code clear}
2855	<	* operations. It does not support the {@code add} or
2856	<	* {@code addAll} operations.
3042	>	* reflected in the set, and vice-versa.
3043		*
3044	<	* <p>The view's {@code iterator} is a "weakly consistent" iterator
2859	<	* that will never throw {@link ConcurrentModificationException},
2860	<	* and guarantees to traverse elements as they existed upon
2861	<	* construction of the iterator, and may (but is not guaranteed to)
2862	<	* reflect any modifications subsequent to construction.
3044	>	* @return the set view
3045		*/
3046	<	public Set<K> keySet() {
3047	<	KeySet<K,V> ks = keySet;
3048	<	return (ks != null) ? ks : (keySet = new KeySet<K,V>(this));
3046	>	public KeySetView<K,V> keySet() {
3047	>	KeySetView<K,V> ks = keySet;
3048	>	return (ks != null) ? ks : (keySet = new KeySetView<K,V>(this, null));
3049	>	}
3050	>
3051	>	/**
3052	>	* Returns a {@link Set} view of the keys in this map, using the
3053	>	* given common mapped value for any additions (i.e., {@link
3054	>	* Collection#add} and {@link Collection#addAll}). This is of
3055	>	* course only appropriate if it is acceptable to use the same
3056	>	* value for all additions from this view.
3057	>	*
3058	>	* @param mappedValue the mapped value to use for any
3059	>	* additions.
3060	>	* @return the set view
3061	>	* @throws NullPointerException if the mappedValue is null
3062	>	*/
3063	>	public KeySetView<K,V> keySet(V mappedValue) {
3064	>	if (mappedValue == null)
3065	>	throw new NullPointerException();
3066	>	return new KeySetView<K,V>(this, mappedValue);
3067		}
3068
3069		/**
3070		* Returns a {@link Collection} view of the values contained in this map.
3071		* The collection is backed by the map, so changes to the map are
3072	<	* reflected in the collection, and vice-versa. The collection
2873	<	* supports element removal, which removes the corresponding
2874	<	* mapping from this map, via the {@code Iterator.remove},
2875	<	* {@code Collection.remove}, {@code removeAll},
2876	<	* {@code retainAll}, and {@code clear} operations. It does not
2877	<	* support the {@code add} or {@code addAll} operations.
2878	<	*
2879	<	* <p>The view's {@code iterator} is a "weakly consistent" iterator
2880	<	* that will never throw {@link ConcurrentModificationException},
2881	<	* and guarantees to traverse elements as they existed upon
2882	<	* construction of the iterator, and may (but is not guaranteed to)
2883	<	* reflect any modifications subsequent to construction.
3072	>	* reflected in the collection, and vice-versa.
3073		*/
3074	<	public Collection<V> values() {
3075	<	Values<K,V> vs = values;
3076	<	return (vs != null) ? vs : (values = new Values<K,V>(this));
3074	>	public ValuesView<K,V> values() {
3075	>	ValuesView<K,V> vs = values;
3076	>	return (vs != null) ? vs : (values = new ValuesView<K,V>(this));
3077		}
3078
3079		/**
#	Line 2904 \| Line 3093 \| public class ConcurrentHashMapV8<K, V>
3093		* reflect any modifications subsequent to construction.
3094		*/
3095		public Set<Map.Entry<K,V>> entrySet() {
3096	<	EntrySet<K,V> es = entrySet;
3097	<	return (es != null) ? es : (entrySet = new EntrySet<K,V>(this));
3096	>	EntrySetView<K,V> es = entrySet;
3097	>	return (es != null) ? es : (entrySet = new EntrySetView<K,V>(this));
3098		}
3099
3100		/**
#	Line 3041 \| Line 3230 \| public class ConcurrentHashMapV8<K, V>
3230		@SuppressWarnings("serial") static final class KeyIterator<K,V> extends Traverser<K,V,Object>
3231		implements Spliterator<K>, Enumeration<K> {
3232		KeyIterator(ConcurrentHashMapV8<K, V> map) { super(map); }
3233	<	KeyIterator(Traverser<K,V,Object> it) {
3234	<	super(it);
3233	>	KeyIterator(ConcurrentHashMapV8<K, V> map, Traverser<K,V,Object> it) {
3234	>	super(map, it, -1);
3235		}
3236		public KeyIterator<K,V> split() {
3237	<	if (last != null \|\| (next != null && nextVal == null))
3237	>	if (nextKey != null)
3238		throw new IllegalStateException();
3239	<	return new KeyIterator<K,V>(this);
3239	>	return new KeyIterator<K,V>(map, this);
3240		}
3241		@SuppressWarnings("unchecked") public final K next() {
3242		if (nextVal == null && advance() == null)
#	Line 3063 \| Line 3252 \| public class ConcurrentHashMapV8<K, V>
3252		@SuppressWarnings("serial") static final class ValueIterator<K,V> extends Traverser<K,V,Object>
3253		implements Spliterator<V>, Enumeration<V> {
3254		ValueIterator(ConcurrentHashMapV8<K, V> map) { super(map); }
3255	<	ValueIterator(Traverser<K,V,Object> it) {
3256	<	super(it);
3255	>	ValueIterator(ConcurrentHashMapV8<K, V> map, Traverser<K,V,Object> it) {
3256	>	super(map, it, -1);
3257		}
3258		public ValueIterator<K,V> split() {
3259	<	if (last != null \|\| (next != null && nextVal == null))
3259	>	if (nextKey != null)
3260		throw new IllegalStateException();
3261	<	return new ValueIterator<K,V>(this);
3261	>	return new ValueIterator<K,V>(map, this);
3262		}
3263
3264		@SuppressWarnings("unchecked") public final V next() {
#	Line 3086 \| Line 3275 \| public class ConcurrentHashMapV8<K, V>
3275		@SuppressWarnings("serial") static final class EntryIterator<K,V> extends Traverser<K,V,Object>
3276		implements Spliterator<Map.Entry<K,V>> {
3277		EntryIterator(ConcurrentHashMapV8<K, V> map) { super(map); }
3278	<	EntryIterator(Traverser<K,V,Object> it) {
3279	<	super(it);
3278	>	EntryIterator(ConcurrentHashMapV8<K, V> map, Traverser<K,V,Object> it) {
3279	>	super(map, it, -1);
3280		}
3281		public EntryIterator<K,V> split() {
3282	<	if (last != null \|\| (next != null && nextVal == null))
3282	>	if (nextKey != null)
3283		throw new IllegalStateException();
3284	<	return new EntryIterator<K,V>(this);
3284	>	return new EntryIterator<K,V>(map, this);
3285		}
3286
3287		@SuppressWarnings("unchecked") public final Map.Entry<K,V> next() {
#	Line 3148 \| Line 3337 \| public class ConcurrentHashMapV8<K, V>
3337		}
3338		}
3339
3151	–	/* ----------------Views -------------- */
3152	–
3340		/**
3341	<	* Base class for views.
3341	>	* Returns exportable snapshot entry for the given key and value
3342	>	* when write-through can't or shouldn't be used.
3343		*/
3344	<	static abstract class CHMView<K, V> {
3345	<	final ConcurrentHashMapV8<K, V> map;
3158	<	CHMView(ConcurrentHashMapV8<K, V> map) { this.map = map; }
3159	<	public final int size() { return map.size(); }
3160	<	public final boolean isEmpty() { return map.isEmpty(); }
3161	<	public final void clear() { map.clear(); }
3162	<
3163	<	// implementations below rely on concrete classes supplying these
3164	<	abstract public Iterator<?> iterator();
3165	<	abstract public boolean contains(Object o);
3166	<	abstract public boolean remove(Object o);
3167	<
3168	<	private static final String oomeMsg = "Required array size too large";
3169	<
3170	<	public final Object[] toArray() {
3171	<	long sz = map.mappingCount();
3172	<	if (sz > (long)(MAX_ARRAY_SIZE))
3173	<	throw new OutOfMemoryError(oomeMsg);
3174	<	int n = (int)sz;
3175	<	Object[] r = new Object[n];
3176	<	int i = 0;
3177	<	Iterator<?> it = iterator();
3178	<	while (it.hasNext()) {
3179	<	if (i == n) {
3180	<	if (n >= MAX_ARRAY_SIZE)
3181	<	throw new OutOfMemoryError(oomeMsg);
3182	<	if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1)
3183	<	n = MAX_ARRAY_SIZE;
3184	<	else
3185	<	n += (n >>> 1) + 1;
3186	<	r = Arrays.copyOf(r, n);
3187	<	}
3188	<	r[i++] = it.next();
3189	<	}
3190	<	return (i == n) ? r : Arrays.copyOf(r, i);
3191	<	}
3192	<
3193	<	@SuppressWarnings("unchecked") public final <T> T[] toArray(T[] a) {
3194	<	long sz = map.mappingCount();
3195	<	if (sz > (long)(MAX_ARRAY_SIZE))
3196	<	throw new OutOfMemoryError(oomeMsg);
3197	<	int m = (int)sz;
3198	<	T[] r = (a.length >= m) ? a :
3199	<	(T[])java.lang.reflect.Array
3200	<	.newInstance(a.getClass().getComponentType(), m);
3201	<	int n = r.length;
3202	<	int i = 0;
3203	<	Iterator<?> it = iterator();
3204	<	while (it.hasNext()) {
3205	<	if (i == n) {
3206	<	if (n >= MAX_ARRAY_SIZE)
3207	<	throw new OutOfMemoryError(oomeMsg);
3208	<	if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1)
3209	<	n = MAX_ARRAY_SIZE;
3210	<	else
3211	<	n += (n >>> 1) + 1;
3212	<	r = Arrays.copyOf(r, n);
3213	<	}
3214	<	r[i++] = (T)it.next();
3215	<	}
3216	<	if (a == r && i < n) {
3217	<	r[i] = null; // null-terminate
3218	<	return r;
3219	<	}
3220	<	return (i == n) ? r : Arrays.copyOf(r, i);
3221	<	}
3222	<
3223	<	public final int hashCode() {
3224	<	int h = 0;
3225	<	for (Iterator<?> it = iterator(); it.hasNext();)
3226	<	h += it.next().hashCode();
3227	<	return h;
3228	<	}
3229	<
3230	<	public final String toString() {
3231	<	StringBuilder sb = new StringBuilder();
3232	<	sb.append('[');
3233	<	Iterator<?> it = iterator();
3234	<	if (it.hasNext()) {
3235	<	for (;;) {
3236	<	Object e = it.next();
3237	<	sb.append(e == this ? "(this Collection)" : e);
3238	<	if (!it.hasNext())
3239	<	break;
3240	<	sb.append(',').append(' ');
3241	<	}
3242	<	}
3243	<	return sb.append(']').toString();
3244	<	}
3245	<
3246	<	public final boolean containsAll(Collection<?> c) {
3247	<	if (c != this) {
3248	<	for (Iterator<?> it = c.iterator(); it.hasNext();) {
3249	<	Object e = it.next();
3250	<	if (e == null \|\| !contains(e))
3251	<	return false;
3252	<	}
3253	<	}
3254	<	return true;
3255	<	}
3256	<
3257	<	public final boolean removeAll(Collection<?> c) {
3258	<	boolean modified = false;
3259	<	for (Iterator<?> it = iterator(); it.hasNext();) {
3260	<	if (c.contains(it.next())) {
3261	<	it.remove();
3262	<	modified = true;
3263	<	}
3264	<	}
3265	<	return modified;
3266	<	}
3267	<
3268	<	public final boolean retainAll(Collection<?> c) {
3269	<	boolean modified = false;
3270	<	for (Iterator<?> it = iterator(); it.hasNext();) {
3271	<	if (!c.contains(it.next())) {
3272	<	it.remove();
3273	<	modified = true;
3274	<	}
3275	<	}
3276	<	return modified;
3277	<	}
3278	<
3279	<	}
3280	<
3281	<	static final class KeySet<K,V> extends CHMView<K,V> implements Set<K> {
3282	<	KeySet(ConcurrentHashMapV8<K, V> map) {
3283	<	super(map);
3284	<	}
3285	<	public final boolean contains(Object o) { return map.containsKey(o); }
3286	<	public final boolean remove(Object o) { return map.remove(o) != null; }
3287	<	public final Iterator<K> iterator() {
3288	<	return new KeyIterator<K,V>(map);
3289	<	}
3290	<	public final boolean add(K e) {
3291	<	throw new UnsupportedOperationException();
3292	<	}
3293	<	public final boolean addAll(Collection<? extends K> c) {
3294	<	throw new UnsupportedOperationException();
3295	<	}
3296	<	public boolean equals(Object o) {
3297	<	Set<?> c;
3298	<	return ((o instanceof Set) &&
3299	<	((c = (Set<?>)o) == this \|\|
3300	<	(containsAll(c) && c.containsAll(this))));
3301	<	}
3302	<	}
3303	<
3304	<
3305	<	static final class Values<K,V> extends CHMView<K,V>
3306	<	implements Collection<V> {
3307	<	Values(ConcurrentHashMapV8<K, V> map) { super(map); }
3308	<	public final boolean contains(Object o) { return map.containsValue(o); }
3309	<	public final boolean remove(Object o) {
3310	<	if (o != null) {
3311	<	Iterator<V> it = new ValueIterator<K,V>(map);
3312	<	while (it.hasNext()) {
3313	<	if (o.equals(it.next())) {
3314	<	it.remove();
3315	<	return true;
3316	<	}
3317	<	}
3318	<	}
3319	<	return false;
3320	<	}
3321	<	public final Iterator<V> iterator() {
3322	<	return new ValueIterator<K,V>(map);
3323	<	}
3324	<	public final boolean add(V e) {
3325	<	throw new UnsupportedOperationException();
3326	<	}
3327	<	public final boolean addAll(Collection<? extends V> c) {
3328	<	throw new UnsupportedOperationException();
3329	<	}
3330	<
3331	<	}
3332	<
3333	<	static final class EntrySet<K,V> extends CHMView<K,V>
3334	<	implements Set<Map.Entry<K,V>> {
3335	<	EntrySet(ConcurrentHashMapV8<K, V> map) { super(map); }
3336	<	public final boolean contains(Object o) {
3337	<	Object k, v, r; Map.Entry<?,?> e;
3338	<	return ((o instanceof Map.Entry) &&
3339	<	(k = (e = (Map.Entry<?,?>)o).getKey()) != null &&
3340	<	(r = map.get(k)) != null &&
3341	<	(v = e.getValue()) != null &&
3342	<	(v == r \|\| v.equals(r)));
3343	<	}
3344	<	public final boolean remove(Object o) {
3345	<	Object k, v; Map.Entry<?,?> e;
3346	<	return ((o instanceof Map.Entry) &&
3347	<	(k = (e = (Map.Entry<?,?>)o).getKey()) != null &&
3348	<	(v = e.getValue()) != null &&
3349	<	map.remove(k, v));
3350	<	}
3351	<	public final Iterator<Map.Entry<K,V>> iterator() {
3352	<	return new EntryIterator<K,V>(map);
3353	<	}
3354	<	public final boolean add(Entry<K,V> e) {
3355	<	throw new UnsupportedOperationException();
3356	<	}
3357	<	public final boolean addAll(Collection<? extends Entry<K,V>> c) {
3358	<	throw new UnsupportedOperationException();
3359	<	}
3360	<	public boolean equals(Object o) {
3361	<	Set<?> c;
3362	<	return ((o instanceof Set) &&
3363	<	((c = (Set<?>)o) == this \|\|
3364	<	(containsAll(c) && c.containsAll(this))));
3365	<	}
3344	>	static <K,V> AbstractMap.SimpleEntry<K,V> entryFor(K k, V v) {
3345	>	return new AbstractMap.SimpleEntry<K,V>(k, v);
3346		}
3347
3348		/* ---------------- Serialization Support -------------- */
#	Line 3531 \| Line 3511 \| public class ConcurrentHashMapV8<K, V>
3511		// -------------------------------------------------------
3512
3513		/**
3514	<	* Returns an extended {@link Parallel} view of this map using the
3535	<	* given executor for bulk parallel operations.
3514	>	* Performs the given action for each (key, value).
3515		*
3516	<	* @param executor the executor
3538	<	* @return a parallel view
3516	>	* @param action the action
3517		*/
3518	<	public Parallel parallel(ForkJoinPool executor) {
3519	<	return new Parallel(executor);
3518	>	public void forEach(BiAction<K,V> action) {
3519	>	ForkJoinTasks.forEach
3520	>	(this, action).invoke();
3521		}
3522
3523		/**
3524	<	* An extended view of a ConcurrentHashMap supporting bulk
3525	<	* parallel operations. These operations are designed to be
3526	<	* safely, and often sensibly, applied even with maps that are
3527	<	* being concurrently updated by other threads; for example, when
3528	<	* computing a snapshot summary of the values in a shared
3529	<	* registry. There are three kinds of operation, each with four
3530	<	* forms, accepting functions with Keys, Values, Entries, and
3531	<	* (Key, Value) arguments and/or return values. Because the
3532	<	* elements of a ConcurrentHashMap are not ordered in any
3533	<	* particular way, and may be processed in different orders in
3534	<	* different parallel executions, the correctness of supplied
3535	<	* functions should not depend on any ordering, or on any other
3536	<	* objects or values that may transiently change while computation
3537	<	* is in progress; and except for forEach actions, should ideally
3538	<	* be side-effect-free.
3539	<	*
3540	<	* <ul>
3541	<	* <li> forEach: Perform a given action on each element.
3542	<	* A variant form applies a given transformation on each element
3543	<	* before performing the action.</li>
3544	<	*
3545	<	* <li> search: Return the first available non-null result of
3546	<	* applying a given function on each element; skipping further
3547	<	* search when a result is found.</li>
3548	<	*
3549	<	* <li> reduce: Accumulate each element. The supplied reduction
3550	<	* function cannot rely on ordering (more formally, it should be
3551	<	* both associative and commutative). There are five variants:
3552	<	*
3553	<	* <ul>
3554	<	*
3555	<	* <li> Plain reductions. (There is not a form of this method for
3556	<	* (key, value) function arguments since there is no corresponding
3557	<	* return type.)</li>
3558	<	*
3559	<	* <li> Mapped reductions that accumulate the results of a given
3560	<	* function applied to each element.</li>
3561	<	*
3562	<	* <li> Reductions to scalar doubles, longs, and ints, using a
3563	<	* given basis value.</li>
3564	<	*
3565	<	* </li>
3566	<	* </ul>
3567	<	* </ul>
3568	<	*
3569	<	* <p>The concurrency properties of the bulk operations follow
3570	<	* from those of ConcurrentHashMap: Any non-null result returned
3571	<	* from {@code get(key)} and related access methods bears a
3572	<	* happens-before relation with the associated insertion or
3573	<	* update. The result of any bulk operation reflects the
3574	<	* composition of these per-element relations (but is not
3575	<	* necessarily atomic with respect to the map as a whole unless it
3576	<	* is somehow known to be quiescent). Conversely, because keys
3577	<	* and values in the map are never null, null serves as a reliable
3578	<	* atomic indicator of the current lack of any result. To
3579	<	* maintain this property, null serves as an implicit basis for
3580	<	* all non-scalar reduction operations. For the double, long, and
3581	<	* int versions, the basis should be one that, when combined with
3582	<	* any other value, returns that other value (more formally, it
3583	<	* should be the identity element for the reduction). Most common
3584	<	* reductions have these properties; for example, computing a sum
3585	<	* with basis 0 or a minimum with basis MAX_VALUE.
3586	<	*
3587	<	* <p>Search and transformation functions provided as arguments
3588	<	* should similarly return null to indicate the lack of any result
3589	<	* (in which case it is not used). In the case of mapped
3590	<	* reductions, this also enables transformations to serve as
3591	<	* filters, returning null (or, in the case of primitive
3592	<	* specializations, the identity basis) if the element should not
3593	<	* be combined. You can create compound transformations and
3594	<	* filterings by composing them yourself under this "null means
3595	<	* there is nothing there now" rule before using them in search or
3596	<	* reduce operations.
3597	<	*
3598	<	* <p>Methods accepting and/or returning Entry arguments maintain
3599	<	* key-value associations. They may be useful for example when
3600	<	* finding the key for the greatest value. Note that "plain" Entry
3601	<	* arguments can be supplied using {@code new
3602	<	* AbstractMap.SimpleEntry(k,v)}.
3603	<	*
3604	<	* <p> Bulk operations may complete abruptly, throwing an
3605	<	* exception encountered in the application of a supplied
3606	<	* function. Bear in mind when handling such exceptions that other
3607	<	* concurrently executing functions could also have thrown
3608	<	* exceptions, or would have done so if the first exception had
3609	<	* not occurred.
3610	<	*
3611	<	* <p>Parallel speedups compared to sequential processing are
3612	<	* common but not guaranteed. Operations involving brief
3613	<	* functions on small maps may execute more slowly than sequential
3614	<	* loops if the underlying work to parallelize the computation is
3615	<	* more expensive than the computation itself. Similarly,
3616	<	* parallelization may not lead to much actual parallelism if all
3617	<	* processors are busy performing unrelated tasks.
3618	<	*
3619	<	* <p> All arguments to all task methods must be non-null.
3620	<	*
3621	<	* <p><em>jsr166e note: During transition, this class
3622	<	* uses nested functional interfaces with different names but the
3623	<	* same forms as those expected for JDK8.<em>
3624	<	*/
3625	<	public class Parallel {
3626	<	final ForkJoinPool fjp;
3627	<
3628	<	/**
3629	<	* Returns an extended view of this map using the given
3630	<	* executor for bulk parallel operations.
3631	<	*
3632	<	* @param executor the executor
3633	<	*/
3634	<	public Parallel(ForkJoinPool executor) {
3635	<	this.fjp = executor;
3636	<	}
3524	>	* Performs the given action for each non-null transformation
3525	>	* of each (key, value).
3526	>	*
3527	>	* @param transformer a function returning the transformation
3528	>	* for an element, or null of there is no transformation (in
3529	>	* which case the action is not applied).
3530	>	* @param action the action
3531	>	*/
3532	>	public <U> void forEach(BiFun<? super K, ? super V, ? extends U> transformer,
3533	>	Action<U> action) {
3534	>	ForkJoinTasks.forEach
3535	>	(this, transformer, action).invoke();
3536	>	}
3537	>
3538	>	/**
3539	>	* Returns a non-null result from applying the given search
3540	>	* function on each (key, value), or null if none. Upon
3541	>	* success, further element processing is suppressed and the
3542	>	* results of any other parallel invocations of the search
3543	>	* function are ignored.
3544	>	*
3545	>	* @param searchFunction a function returning a non-null
3546	>	* result on success, else null
3547	>	* @return a non-null result from applying the given search
3548	>	* function on each (key, value), or null if none
3549	>	*/
3550	>	public <U> U search(BiFun<? super K, ? super V, ? extends U> searchFunction) {
3551	>	return ForkJoinTasks.search
3552	>	(this, searchFunction).invoke();
3553	>	}
3554	>
3555	>	/**
3556	>	* Returns the result of accumulating the given transformation
3557	>	* of all (key, value) pairs using the given reducer to
3558	>	* combine values, or null if none.
3559	>	*
3560	>	* @param transformer a function returning the transformation
3561	>	* for an element, or null of there is no transformation (in
3562	>	* which case it is not combined).
3563	>	* @param reducer a commutative associative combining function
3564	>	* @return the result of accumulating the given transformation
3565	>	* of all (key, value) pairs
3566	>	*/
3567	>	public <U> U reduce(BiFun<? super K, ? super V, ? extends U> transformer,
3568	>	BiFun<? super U, ? super U, ? extends U> reducer) {
3569	>	return ForkJoinTasks.reduce
3570	>	(this, transformer, reducer).invoke();
3571	>	}
3572	>
3573	>	/**
3574	>	* Returns the result of accumulating the given transformation
3575	>	* of all (key, value) pairs using the given reducer to
3576	>	* combine values, and the given basis as an identity value.
3577	>	*
3578	>	* @param transformer a function returning the transformation
3579	>	* for an element
3580	>	* @param basis the identity (initial default value) for the reduction
3581	>	* @param reducer a commutative associative combining function
3582	>	* @return the result of accumulating the given transformation
3583	>	* of all (key, value) pairs
3584	>	*/
3585	>	public double reduceToDouble(ObjectByObjectToDouble<? super K, ? super V> transformer,
3586	>	double basis,
3587	>	DoubleByDoubleToDouble reducer) {
3588	>	return ForkJoinTasks.reduceToDouble
3589	>	(this, transformer, basis, reducer).invoke();
3590	>	}
3591	>
3592	>	/**
3593	>	* Returns the result of accumulating the given transformation
3594	>	* of all (key, value) pairs using the given reducer to
3595	>	* combine values, and the given basis as an identity value.
3596	>	*
3597	>	* @param transformer a function returning the transformation
3598	>	* for an element
3599	>	* @param basis the identity (initial default value) for the reduction
3600	>	* @param reducer a commutative associative combining function
3601	>	* @return the result of accumulating the given transformation
3602	>	* of all (key, value) pairs
3603	>	*/
3604	>	public long reduceToLong(ObjectByObjectToLong<? super K, ? super V> transformer,
3605	>	long basis,
3606	>	LongByLongToLong reducer) {
3607	>	return ForkJoinTasks.reduceToLong
3608	>	(this, transformer, basis, reducer).invoke();
3609	>	}
3610	>
3611	>	/**
3612	>	* Returns the result of accumulating the given transformation
3613	>	* of all (key, value) pairs using the given reducer to
3614	>	* combine values, and the given basis as an identity value.
3615	>	*
3616	>	* @param transformer a function returning the transformation
3617	>	* for an element
3618	>	* @param basis the identity (initial default value) for the reduction
3619	>	* @param reducer a commutative associative combining function
3620	>	* @return the result of accumulating the given transformation
3621	>	* of all (key, value) pairs
3622	>	*/
3623	>	public int reduceToInt(ObjectByObjectToInt<? super K, ? super V> transformer,
3624	>	int basis,
3625	>	IntByIntToInt reducer) {
3626	>	return ForkJoinTasks.reduceToInt
3627	>	(this, transformer, basis, reducer).invoke();
3628	>	}
3629	>
3630	>	/**
3631	>	* Performs the given action for each key.
3632	>	*
3633	>	* @param action the action
3634	>	*/
3635	>	public void forEachKey(Action<K> action) {
3636	>	ForkJoinTasks.forEachKey
3637	>	(this, action).invoke();
3638	>	}
3639	>
3640	>	/**
3641	>	* Performs the given action for each non-null transformation
3642	>	* of each key.
3643	>	*
3644	>	* @param transformer a function returning the transformation
3645	>	* for an element, or null of there is no transformation (in
3646	>	* which case the action is not applied).
3647	>	* @param action the action
3648	>	*/
3649	>	public <U> void forEachKey(Fun<? super K, ? extends U> transformer,
3650	>	Action<U> action) {
3651	>	ForkJoinTasks.forEachKey
3652	>	(this, transformer, action).invoke();
3653	>	}
3654	>
3655	>	/**
3656	>	* Returns a non-null result from applying the given search
3657	>	* function on each key, or null if none. Upon success,
3658	>	* further element processing is suppressed and the results of
3659	>	* any other parallel invocations of the search function are
3660	>	* ignored.
3661	>	*
3662	>	* @param searchFunction a function returning a non-null
3663	>	* result on success, else null
3664	>	* @return a non-null result from applying the given search
3665	>	* function on each key, or null if none
3666	>	*/
3667	>	public <U> U searchKeys(Fun<? super K, ? extends U> searchFunction) {
3668	>	return ForkJoinTasks.searchKeys
3669	>	(this, searchFunction).invoke();
3670	>	}
3671	>
3672	>	/**
3673	>	* Returns the result of accumulating all keys using the given
3674	>	* reducer to combine values, or null if none.
3675	>	*
3676	>	* @param reducer a commutative associative combining function
3677	>	* @return the result of accumulating all keys using the given
3678	>	* reducer to combine values, or null if none
3679	>	*/
3680	>	public K reduceKeys(BiFun<? super K, ? super K, ? extends K> reducer) {
3681	>	return ForkJoinTasks.reduceKeys
3682	>	(this, reducer).invoke();
3683	>	}
3684	>
3685	>	/**
3686	>	* Returns the result of accumulating the given transformation
3687	>	* of all keys using the given reducer to combine values, or
3688	>	* null if none.
3689	>	*
3690	>	* @param transformer a function returning the transformation
3691	>	* for an element, or null of there is no transformation (in
3692	>	* which case it is not combined).
3693	>	* @param reducer a commutative associative combining function
3694	>	* @return the result of accumulating the given transformation
3695	>	* of all keys
3696	>	*/
3697	>	public <U> U reduceKeys(Fun<? super K, ? extends U> transformer,
3698	>	BiFun<? super U, ? super U, ? extends U> reducer) {
3699	>	return ForkJoinTasks.reduceKeys
3700	>	(this, transformer, reducer).invoke();
3701	>	}
3702	>
3703	>	/**
3704	>	* Returns the result of accumulating the given transformation
3705	>	* of all keys using the given reducer to combine values, and
3706	>	* the given basis as an identity value.
3707	>	*
3708	>	* @param transformer a function returning the transformation
3709	>	* for an element
3710	>	* @param basis the identity (initial default value) for the reduction
3711	>	* @param reducer a commutative associative combining function
3712	>	* @return the result of accumulating the given transformation
3713	>	* of all keys
3714	>	*/
3715	>	public double reduceKeysToDouble(ObjectToDouble<? super K> transformer,
3716	>	double basis,
3717	>	DoubleByDoubleToDouble reducer) {
3718	>	return ForkJoinTasks.reduceKeysToDouble
3719	>	(this, transformer, basis, reducer).invoke();
3720	>	}
3721	>
3722	>	/**
3723	>	* Returns the result of accumulating the given transformation
3724	>	* of all keys using the given reducer to combine values, and
3725	>	* the given basis as an identity value.
3726	>	*
3727	>	* @param transformer a function returning the transformation
3728	>	* for an element
3729	>	* @param basis the identity (initial default value) for the reduction
3730	>	* @param reducer a commutative associative combining function
3731	>	* @return the result of accumulating the given transformation
3732	>	* of all keys
3733	>	*/
3734	>	public long reduceKeysToLong(ObjectToLong<? super K> transformer,
3735	>	long basis,
3736	>	LongByLongToLong reducer) {
3737	>	return ForkJoinTasks.reduceKeysToLong
3738	>	(this, transformer, basis, reducer).invoke();
3739	>	}
3740	>
3741	>	/**
3742	>	* Returns the result of accumulating the given transformation
3743	>	* of all keys using the given reducer to combine values, and
3744	>	* the given basis as an identity value.
3745	>	*
3746	>	* @param transformer a function returning the transformation
3747	>	* for an element
3748	>	* @param basis the identity (initial default value) for the reduction
3749	>	* @param reducer a commutative associative combining function
3750	>	* @return the result of accumulating the given transformation
3751	>	* of all keys
3752	>	*/
3753	>	public int reduceKeysToInt(ObjectToInt<? super K> transformer,
3754	>	int basis,
3755	>	IntByIntToInt reducer) {
3756	>	return ForkJoinTasks.reduceKeysToInt
3757	>	(this, transformer, basis, reducer).invoke();
3758	>	}
3759	>
3760	>	/**
3761	>	* Performs the given action for each value.
3762	>	*
3763	>	* @param action the action
3764	>	*/
3765	>	public void forEachValue(Action<V> action) {
3766	>	ForkJoinTasks.forEachValue
3767	>	(this, action).invoke();
3768	>	}
3769	>
3770	>	/**
3771	>	* Performs the given action for each non-null transformation
3772	>	* of each value.
3773	>	*
3774	>	* @param transformer a function returning the transformation
3775	>	* for an element, or null of there is no transformation (in
3776	>	* which case the action is not applied).
3777	>	*/
3778	>	public <U> void forEachValue(Fun<? super V, ? extends U> transformer,
3779	>	Action<U> action) {
3780	>	ForkJoinTasks.forEachValue
3781	>	(this, transformer, action).invoke();
3782	>	}
3783	>
3784	>	/**
3785	>	* Returns a non-null result from applying the given search
3786	>	* function on each value, or null if none. Upon success,
3787	>	* further element processing is suppressed and the results of
3788	>	* any other parallel invocations of the search function are
3789	>	* ignored.
3790	>	*
3791	>	* @param searchFunction a function returning a non-null
3792	>	* result on success, else null
3793	>	* @return a non-null result from applying the given search
3794	>	* function on each value, or null if none
3795	>	*
3796	>	*/
3797	>	public <U> U searchValues(Fun<? super V, ? extends U> searchFunction) {
3798	>	return ForkJoinTasks.searchValues
3799	>	(this, searchFunction).invoke();
3800	>	}
3801	>
3802	>	/**
3803	>	* Returns the result of accumulating all values using the
3804	>	* given reducer to combine values, or null if none.
3805	>	*
3806	>	* @param reducer a commutative associative combining function
3807	>	* @return the result of accumulating all values
3808	>	*/
3809	>	public V reduceValues(BiFun<? super V, ? super V, ? extends V> reducer) {
3810	>	return ForkJoinTasks.reduceValues
3811	>	(this, reducer).invoke();
3812	>	}
3813	>
3814	>	/**
3815	>	* Returns the result of accumulating the given transformation
3816	>	* of all values using the given reducer to combine values, or
3817	>	* null if none.
3818	>	*
3819	>	* @param transformer a function returning the transformation
3820	>	* for an element, or null of there is no transformation (in
3821	>	* which case it is not combined).
3822	>	* @param reducer a commutative associative combining function
3823	>	* @return the result of accumulating the given transformation
3824	>	* of all values
3825	>	*/
3826	>	public <U> U reduceValues(Fun<? super V, ? extends U> transformer,
3827	>	BiFun<? super U, ? super U, ? extends U> reducer) {
3828	>	return ForkJoinTasks.reduceValues
3829	>	(this, transformer, reducer).invoke();
3830	>	}
3831	>
3832	>	/**
3833	>	* Returns the result of accumulating the given transformation
3834	>	* of all values using the given reducer to combine values,
3835	>	* and the given basis as an identity value.
3836	>	*
3837	>	* @param transformer a function returning the transformation
3838	>	* for an element
3839	>	* @param basis the identity (initial default value) for the reduction
3840	>	* @param reducer a commutative associative combining function
3841	>	* @return the result of accumulating the given transformation
3842	>	* of all values
3843	>	*/
3844	>	public double reduceValuesToDouble(ObjectToDouble<? super V> transformer,
3845	>	double basis,
3846	>	DoubleByDoubleToDouble reducer) {
3847	>	return ForkJoinTasks.reduceValuesToDouble
3848	>	(this, transformer, basis, reducer).invoke();
3849	>	}
3850	>
3851	>	/**
3852	>	* Returns the result of accumulating the given transformation
3853	>	* of all values using the given reducer to combine values,
3854	>	* and the given basis as an identity value.
3855	>	*
3856	>	* @param transformer a function returning the transformation
3857	>	* for an element
3858	>	* @param basis the identity (initial default value) for the reduction
3859	>	* @param reducer a commutative associative combining function
3860	>	* @return the result of accumulating the given transformation
3861	>	* of all values
3862	>	*/
3863	>	public long reduceValuesToLong(ObjectToLong<? super V> transformer,
3864	>	long basis,
3865	>	LongByLongToLong reducer) {
3866	>	return ForkJoinTasks.reduceValuesToLong
3867	>	(this, transformer, basis, reducer).invoke();
3868	>	}
3869	>
3870	>	/**
3871	>	* Returns the result of accumulating the given transformation
3872	>	* of all values using the given reducer to combine values,
3873	>	* and the given basis as an identity value.
3874	>	*
3875	>	* @param transformer a function returning the transformation
3876	>	* for an element
3877	>	* @param basis the identity (initial default value) for the reduction
3878	>	* @param reducer a commutative associative combining function
3879	>	* @return the result of accumulating the given transformation
3880	>	* of all values
3881	>	*/
3882	>	public int reduceValuesToInt(ObjectToInt<? super V> transformer,
3883	>	int basis,
3884	>	IntByIntToInt reducer) {
3885	>	return ForkJoinTasks.reduceValuesToInt
3886	>	(this, transformer, basis, reducer).invoke();
3887	>	}
3888	>
3889	>	/**
3890	>	* Performs the given action for each entry.
3891	>	*
3892	>	* @param action the action
3893	>	*/
3894	>	public void forEachEntry(Action<Map.Entry<K,V>> action) {
3895	>	ForkJoinTasks.forEachEntry
3896	>	(this, action).invoke();
3897	>	}
3898	>
3899	>	/**
3900	>	* Performs the given action for each non-null transformation
3901	>	* of each entry.
3902	>	*
3903	>	* @param transformer a function returning the transformation
3904	>	* for an element, or null of there is no transformation (in
3905	>	* which case the action is not applied).
3906	>	* @param action the action
3907	>	*/
3908	>	public <U> void forEachEntry(Fun<Map.Entry<K,V>, ? extends U> transformer,
3909	>	Action<U> action) {
3910	>	ForkJoinTasks.forEachEntry
3911	>	(this, transformer, action).invoke();
3912	>	}
3913	>
3914	>	/**
3915	>	* Returns a non-null result from applying the given search
3916	>	* function on each entry, or null if none. Upon success,
3917	>	* further element processing is suppressed and the results of
3918	>	* any other parallel invocations of the search function are
3919	>	* ignored.
3920	>	*
3921	>	* @param searchFunction a function returning a non-null
3922	>	* result on success, else null
3923	>	* @return a non-null result from applying the given search
3924	>	* function on each entry, or null if none
3925	>	*/
3926	>	public <U> U searchEntries(Fun<Map.Entry<K,V>, ? extends U> searchFunction) {
3927	>	return ForkJoinTasks.searchEntries
3928	>	(this, searchFunction).invoke();
3929	>	}
3930	>
3931	>	/**
3932	>	* Returns the result of accumulating all entries using the
3933	>	* given reducer to combine values, or null if none.
3934	>	*
3935	>	* @param reducer a commutative associative combining function
3936	>	* @return the result of accumulating all entries
3937	>	*/
3938	>	public Map.Entry<K,V> reduceEntries(BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) {
3939	>	return ForkJoinTasks.reduceEntries
3940	>	(this, reducer).invoke();
3941	>	}
3942	>
3943	>	/**
3944	>	* Returns the result of accumulating the given transformation
3945	>	* of all entries using the given reducer to combine values,
3946	>	* or null if none.
3947	>	*
3948	>	* @param transformer a function returning the transformation
3949	>	* for an element, or null of there is no transformation (in
3950	>	* which case it is not combined).
3951	>	* @param reducer a commutative associative combining function
3952	>	* @return the result of accumulating the given transformation
3953	>	* of all entries
3954	>	*/
3955	>	public <U> U reduceEntries(Fun<Map.Entry<K,V>, ? extends U> transformer,
3956	>	BiFun<? super U, ? super U, ? extends U> reducer) {
3957	>	return ForkJoinTasks.reduceEntries
3958	>	(this, transformer, reducer).invoke();
3959	>	}
3960	>
3961	>	/**
3962	>	* Returns the result of accumulating the given transformation
3963	>	* of all entries using the given reducer to combine values,
3964	>	* and the given basis as an identity value.
3965	>	*
3966	>	* @param transformer a function returning the transformation
3967	>	* for an element
3968	>	* @param basis the identity (initial default value) for the reduction
3969	>	* @param reducer a commutative associative combining function
3970	>	* @return the result of accumulating the given transformation
3971	>	* of all entries
3972	>	*/
3973	>	public double reduceEntriesToDouble(ObjectToDouble<Map.Entry<K,V>> transformer,
3974	>	double basis,
3975	>	DoubleByDoubleToDouble reducer) {
3976	>	return ForkJoinTasks.reduceEntriesToDouble
3977	>	(this, transformer, basis, reducer).invoke();
3978	>	}
3979	>
3980	>	/**
3981	>	* Returns the result of accumulating the given transformation
3982	>	* of all entries using the given reducer to combine values,
3983	>	* and the given basis as an identity value.
3984	>	*
3985	>	* @param transformer a function returning the transformation
3986	>	* for an element
3987	>	* @param basis the identity (initial default value) for the reduction
3988	>	* @param reducer a commutative associative combining function
3989	>	* @return the result of accumulating the given transformation
3990	>	* of all entries
3991	>	*/
3992	>	public long reduceEntriesToLong(ObjectToLong<Map.Entry<K,V>> transformer,
3993	>	long basis,
3994	>	LongByLongToLong reducer) {
3995	>	return ForkJoinTasks.reduceEntriesToLong
3996	>	(this, transformer, basis, reducer).invoke();
3997	>	}
3998	>
3999	>	/**
4000	>	* Returns the result of accumulating the given transformation
4001	>	* of all entries using the given reducer to combine values,
4002	>	* and the given basis as an identity value.
4003	>	*
4004	>	* @param transformer a function returning the transformation
4005	>	* for an element
4006	>	* @param basis the identity (initial default value) for the reduction
4007	>	* @param reducer a commutative associative combining function
4008	>	* @return the result of accumulating the given transformation
4009	>	* of all entries
4010	>	*/
4011	>	public int reduceEntriesToInt(ObjectToInt<Map.Entry<K,V>> transformer,
4012	>	int basis,
4013	>	IntByIntToInt reducer) {
4014	>	return ForkJoinTasks.reduceEntriesToInt
4015	>	(this, transformer, basis, reducer).invoke();
4016	>	}
4017	>
4018	>	/* ----------------Views -------------- */
4019	>
4020	>	/**
4021	>	* Base class for views.
4022	>	*/
4023	>	static abstract class CHMView<K, V> {
4024	>	final ConcurrentHashMapV8<K, V> map;
4025	>	CHMView(ConcurrentHashMapV8<K, V> map) { this.map = map; }
4026
4027		/**
4028	<	* Performs the given action for each (key, value).
4028	>	* Returns the map backing this view.
4029		*
4030	<	* @param action the action
4030	>	* @return the map backing this view
4031		*/
4032	<	public void forEach(BiAction<K,V> action) {
4033	<	fjp.invoke(ForkJoinTasks.forEach
4034	<	(ConcurrentHashMapV8.this, action));
4032	>	public ConcurrentHashMapV8<K,V> getMap() { return map; }
4033	>
4034	>	public final int size() { return map.size(); }
4035	>	public final boolean isEmpty() { return map.isEmpty(); }
4036	>	public final void clear() { map.clear(); }
4037	>
4038	>	// implementations below rely on concrete classes supplying these
4039	>	abstract public Iterator<?> iterator();
4040	>	abstract public boolean contains(Object o);
4041	>	abstract public boolean remove(Object o);
4042	>
4043	>	private static final String oomeMsg = "Required array size too large";
4044	>
4045	>	public final Object[] toArray() {
4046	>	long sz = map.mappingCount();
4047	>	if (sz > (long)(MAX_ARRAY_SIZE))
4048	>	throw new OutOfMemoryError(oomeMsg);
4049	>	int n = (int)sz;
4050	>	Object[] r = new Object[n];
4051	>	int i = 0;
4052	>	Iterator<?> it = iterator();
4053	>	while (it.hasNext()) {
4054	>	if (i == n) {
4055	>	if (n >= MAX_ARRAY_SIZE)
4056	>	throw new OutOfMemoryError(oomeMsg);
4057	>	if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1)
4058	>	n = MAX_ARRAY_SIZE;
4059	>	else
4060	>	n += (n >>> 1) + 1;
4061	>	r = Arrays.copyOf(r, n);
4062	>	}
4063	>	r[i++] = it.next();
4064	>	}
4065	>	return (i == n) ? r : Arrays.copyOf(r, i);
4066		}
4067
4068	<	/**
4069	<	* Performs the given action for each non-null transformation
4070	<	* of each (key, value).
4071	<	*
4072	<	* @param transformer a function returning the transformation
4073	<	* for an element, or null of there is no transformation (in
4074	<	* which case the action is not applied).
4075	<	* @param action the action
4076	<	*/
4077	<	public <U> void forEach(BiFun<? super K, ? super V, ? extends U> transformer,
4078	<	Action<U> action) {
4079	<	fjp.invoke(ForkJoinTasks.forEach
4080	<	(ConcurrentHashMapV8.this, transformer, action));
4068	>	@SuppressWarnings("unchecked") public final <T> T[] toArray(T[] a) {
4069	>	long sz = map.mappingCount();
4070	>	if (sz > (long)(MAX_ARRAY_SIZE))
4071	>	throw new OutOfMemoryError(oomeMsg);
4072	>	int m = (int)sz;
4073	>	T[] r = (a.length >= m) ? a :
4074	>	(T[])java.lang.reflect.Array
4075	>	.newInstance(a.getClass().getComponentType(), m);
4076	>	int n = r.length;
4077	>	int i = 0;
4078	>	Iterator<?> it = iterator();
4079	>	while (it.hasNext()) {
4080	>	if (i == n) {
4081	>	if (n >= MAX_ARRAY_SIZE)
4082	>	throw new OutOfMemoryError(oomeMsg);
4083	>	if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1)
4084	>	n = MAX_ARRAY_SIZE;
4085	>	else
4086	>	n += (n >>> 1) + 1;
4087	>	r = Arrays.copyOf(r, n);
4088	>	}
4089	>	r[i++] = (T)it.next();
4090	>	}
4091	>	if (a == r && i < n) {
4092	>	r[i] = null; // null-terminate
4093	>	return r;
4094	>	}
4095	>	return (i == n) ? r : Arrays.copyOf(r, i);
4096		}
4097
4098	<	/**
4099	<	* Returns a non-null result from applying the given search
4100	<	* function on each (key, value), or null if none. Upon
4101	<	* success, further element processing is suppressed and the
4102	<	* results of any other parallel invocations of the search
3689	<	* function are ignored.
3690	<	*
3691	<	* @param searchFunction a function returning a non-null
3692	<	* result on success, else null
3693	<	* @return a non-null result from applying the given search
3694	<	* function on each (key, value), or null if none
3695	<	*/
3696	<	public <U> U search(BiFun<? super K, ? super V, ? extends U> searchFunction) {
3697	<	return fjp.invoke(ForkJoinTasks.search
3698	<	(ConcurrentHashMapV8.this, searchFunction));
4098	>	public final int hashCode() {
4099	>	int h = 0;
4100	>	for (Iterator<?> it = iterator(); it.hasNext();)
4101	>	h += it.next().hashCode();
4102	>	return h;
4103		}
4104
4105	<	/**
4106	<	* Returns the result of accumulating the given transformation
4107	<	* of all (key, value) pairs using the given reducer to
4108	<	* combine values, or null if none.
4109	<	*
4110	<	* @param transformer a function returning the transformation
4111	<	* for an element, or null of there is no transformation (in
4112	<	* which case it is not combined).
4113	<	* @param reducer a commutative associative combining function
4114	<	* @return the result of accumulating the given transformation
4115	<	* of all (key, value) pairs
4116	<	*/
4117	<	public <U> U reduce(BiFun<? super K, ? super V, ? extends U> transformer,
4118	<	BiFun<? super U, ? super U, ? extends U> reducer) {
3715	<	return fjp.invoke(ForkJoinTasks.reduce
3716	<	(ConcurrentHashMapV8.this, transformer, reducer));
4105	>	public final String toString() {
4106	>	StringBuilder sb = new StringBuilder();
4107	>	sb.append('[');
4108	>	Iterator<?> it = iterator();
4109	>	if (it.hasNext()) {
4110	>	for (;;) {
4111	>	Object e = it.next();
4112	>	sb.append(e == this ? "(this Collection)" : e);
4113	>	if (!it.hasNext())
4114	>	break;
4115	>	sb.append(',').append(' ');
4116	>	}
4117	>	}
4118	>	return sb.append(']').toString();
4119		}
4120
4121	<	/**
4122	<	* Returns the result of accumulating the given transformation
4123	<	* of all (key, value) pairs using the given reducer to
4124	<	* combine values, and the given basis as an identity value.
4125	<	*
4126	<	* @param transformer a function returning the transformation
4127	<	* for an element
4128	<	* @param basis the identity (initial default value) for the reduction
4129	<	* @param reducer a commutative associative combining function
4130	<	* @return the result of accumulating the given transformation
4131	<	* of all (key, value) pairs
4132	<	*/
4133	<	public double reduceToDouble(ObjectByObjectToDouble<? super K, ? super V> transformer,
4134	<	double basis,
4135	<	DoubleByDoubleToDouble reducer) {
4136	<	return fjp.invoke(ForkJoinTasks.reduceToDouble
4137	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4121	>	public final boolean containsAll(Collection<?> c) {
4122	>	if (c != this) {
4123	>	for (Iterator<?> it = c.iterator(); it.hasNext();) {
4124	>	Object e = it.next();
4125	>	if (e == null \|\| !contains(e))
4126	>	return false;
4127	>	}
4128	>	}
4129	>	return true;
4130	>	}
4131	>
4132	>	public final boolean removeAll(Collection<?> c) {
4133	>	boolean modified = false;
4134	>	for (Iterator<?> it = iterator(); it.hasNext();) {
4135	>	if (c.contains(it.next())) {
4136	>	it.remove();
4137	>	modified = true;
4138	>	}
4139	>	}
4140	>	return modified;
4141	>	}
4142	>
4143	>	public final boolean retainAll(Collection<?> c) {
4144	>	boolean modified = false;
4145	>	for (Iterator<?> it = iterator(); it.hasNext();) {
4146	>	if (!c.contains(it.next())) {
4147	>	it.remove();
4148	>	modified = true;
4149	>	}
4150	>	}
4151	>	return modified;
4152	>	}
4153	>
4154	>	}
4155	>
4156	>	/**
4157	>	* A view of a ConcurrentHashMapV8 as a {@link Set} of keys, in
4158	>	* which additions may optionally be enabled by mapping to a
4159	>	* common value. This class cannot be directly instantiated. See
4160	>	* {@link #keySet}, {@link #keySet(Object)}, {@link #newKeySet()},
4161	>	* {@link #newKeySet(int)}.
4162	>	*/
4163	>	public static class KeySetView<K,V> extends CHMView<K,V> implements Set<K>, java.io.Serializable {
4164	>	private static final long serialVersionUID = 7249069246763182397L;
4165	>	private final V value;
4166	>	KeySetView(ConcurrentHashMapV8<K, V> map, V value) { // non-public
4167	>	super(map);
4168	>	this.value = value;
4169		}
4170
4171		/**
4172	<	* Returns the result of accumulating the given transformation
4173	<	* of all (key, value) pairs using the given reducer to
3741	<	* combine values, and the given basis as an identity value.
4172	>	* Returns the default mapped value for additions,
4173	>	* or {@code null} if additions are not supported.
4174		*
4175	<	* @param transformer a function returning the transformation
4176	<	* for an element
3745	<	* @param basis the identity (initial default value) for the reduction
3746	<	* @param reducer a commutative associative combining function
3747	<	* @return the result of accumulating the given transformation
3748	<	* of all (key, value) pairs
4175	>	* @return the default mapped value for additions, or {@code null}
4176	>	* if not supported.
4177		*/
4178	<	public long reduceToLong(ObjectByObjectToLong<? super K, ? super V> transformer,
4179	<	long basis,
4180	<	LongByLongToLong reducer) {
4181	<	return fjp.invoke(ForkJoinTasks.reduceToLong
4182	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4183	<	}
4178	>	public V getMappedValue() { return value; }
4179	>
4180	>	// implement Set API
4181	>
4182	>	public boolean contains(Object o) { return map.containsKey(o); }
4183	>	public boolean remove(Object o) { return map.remove(o) != null; }
4184
4185		/**
4186	<	* Returns the result of accumulating the given transformation
4187	<	* of all (key, value) pairs using the given reducer to
4188	<	* combine values, and the given basis as an identity value.
4186	>	* Returns a "weakly consistent" iterator that will never
4187	>	* throw {@link ConcurrentModificationException}, and
4188	>	* guarantees to traverse elements as they existed upon
4189	>	* construction of the iterator, and may (but is not
4190	>	* guaranteed to) reflect any modifications subsequent to
4191	>	* construction.
4192		*
4193	<	* @param transformer a function returning the transformation
3763	<	* for an element
3764	<	* @param basis the identity (initial default value) for the reduction
3765	<	* @param reducer a commutative associative combining function
3766	<	* @return the result of accumulating the given transformation
3767	<	* of all (key, value) pairs
4193	>	* @return an iterator over the keys of this map
4194		*/
4195	<	public int reduceToInt(ObjectByObjectToInt<? super K, ? super V> transformer,
4196	<	int basis,
4197	<	IntByIntToInt reducer) {
4198	<	return fjp.invoke(ForkJoinTasks.reduceToInt
4199	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4195	>	public Iterator<K> iterator() { return new KeyIterator<K,V>(map); }
4196	>	public boolean add(K e) {
4197	>	V v;
4198	>	if ((v = value) == null)
4199	>	throw new UnsupportedOperationException();
4200	>	if (e == null)
4201	>	throw new NullPointerException();
4202	>	return map.internalPutIfAbsent(e, v) == null;
4203	>	}
4204	>	public boolean addAll(Collection<? extends K> c) {
4205	>	boolean added = false;
4206	>	V v;
4207	>	if ((v = value) == null)
4208	>	throw new UnsupportedOperationException();
4209	>	for (K e : c) {
4210	>	if (e == null)
4211	>	throw new NullPointerException();
4212	>	if (map.internalPutIfAbsent(e, v) == null)
4213	>	added = true;
4214	>	}
4215	>	return added;
4216	>	}
4217	>	public boolean equals(Object o) {
4218	>	Set<?> c;
4219	>	return ((o instanceof Set) &&
4220	>	((c = (Set<?>)o) == this \|\|
4221	>	(containsAll(c) && c.containsAll(this))));
4222		}
4223
4224		/**
#	Line 3778 \| Line 4226 \| public class ConcurrentHashMapV8<K, V>
4226		*
4227		* @param action the action
4228		*/
4229	<	public void forEachKey(Action<K> action) {
4230	<	fjp.invoke(ForkJoinTasks.forEachKey
4231	<	(ConcurrentHashMapV8.this, action));
4229	>	public void forEach(Action<K> action) {
4230	>	ForkJoinTasks.forEachKey
4231	>	(map, action).invoke();
4232		}
4233
4234		/**
#	Line 3792 \| Line 4240 \| public class ConcurrentHashMapV8<K, V>
4240		* which case the action is not applied).
4241		* @param action the action
4242		*/
4243	<	public <U> void forEachKey(Fun<? super K, ? extends U> transformer,
4244	<	Action<U> action) {
4245	<	fjp.invoke(ForkJoinTasks.forEachKey
4246	<	(ConcurrentHashMapV8.this, transformer, action));
4243	>	public <U> void forEach(Fun<? super K, ? extends U> transformer,
4244	>	Action<U> action) {
4245	>	ForkJoinTasks.forEachKey
4246	>	(map, transformer, action).invoke();
4247		}
4248
4249		/**
#	Line 3810 \| Line 4258 \| public class ConcurrentHashMapV8<K, V>
4258		* @return a non-null result from applying the given search
4259		* function on each key, or null if none
4260		*/
4261	<	public <U> U searchKeys(Fun<? super K, ? extends U> searchFunction) {
4262	<	return fjp.invoke(ForkJoinTasks.searchKeys
4263	<	(ConcurrentHashMapV8.this, searchFunction));
4261	>	public <U> U search(Fun<? super K, ? extends U> searchFunction) {
4262	>	return ForkJoinTasks.searchKeys
4263	>	(map, searchFunction).invoke();
4264		}
4265
4266		/**
#	Line 3823 \| Line 4271 \| public class ConcurrentHashMapV8<K, V>
4271		* @return the result of accumulating all keys using the given
4272		* reducer to combine values, or null if none
4273		*/
4274	<	public K reduceKeys(BiFun<? super K, ? super K, ? extends K> reducer) {
4275	<	return fjp.invoke(ForkJoinTasks.reduceKeys
4276	<	(ConcurrentHashMapV8.this, reducer));
3829	<	}
3830	<
3831	<	/**
3832	<	* Returns the result of accumulating the given transformation
3833	<	* of all keys using the given reducer to combine values, or
3834	<	* null if none.
3835	<	*
3836	<	* @param transformer a function returning the transformation
3837	<	* for an element, or null of there is no transformation (in
3838	<	* which case it is not combined).
3839	<	* @param reducer a commutative associative combining function
3840	<	* @return the result of accumulating the given transformation
3841	<	* of all keys
3842	<	*/
3843	<	public <U> U reduceKeys(Fun<? super K, ? extends U> transformer,
3844	<	BiFun<? super U, ? super U, ? extends U> reducer) {
3845	<	return fjp.invoke(ForkJoinTasks.reduceKeys
3846	<	(ConcurrentHashMapV8.this, transformer, reducer));
4274	>	public K reduce(BiFun<? super K, ? super K, ? extends K> reducer) {
4275	>	return ForkJoinTasks.reduceKeys
4276	>	(map, reducer).invoke();
4277		}
4278
4279		/**
#	Line 3858 \| Line 4288 \| public class ConcurrentHashMapV8<K, V>
4288		* @return the result of accumulating the given transformation
4289		* of all keys
4290		*/
4291	<	public double reduceKeysToDouble(ObjectToDouble<? super K> transformer,
4292	<	double basis,
4293	<	DoubleByDoubleToDouble reducer) {
4294	<	return fjp.invoke(ForkJoinTasks.reduceKeysToDouble
4295	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4291	>	public double reduceToDouble(ObjectToDouble<? super K> transformer,
4292	>	double basis,
4293	>	DoubleByDoubleToDouble reducer) {
4294	>	return ForkJoinTasks.reduceKeysToDouble
4295	>	(map, transformer, basis, reducer).invoke();
4296		}
4297
4298	+
4299		/**
4300		* Returns the result of accumulating the given transformation
4301		* of all keys using the given reducer to combine values, and
#	Line 3877 \| Line 4308 \| public class ConcurrentHashMapV8<K, V>
4308		* @return the result of accumulating the given transformation
4309		* of all keys
4310		*/
4311	<	public long reduceKeysToLong(ObjectToLong<? super K> transformer,
4312	<	long basis,
4313	<	LongByLongToLong reducer) {
4314	<	return fjp.invoke(ForkJoinTasks.reduceKeysToLong
4315	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4311	>	public long reduceToLong(ObjectToLong<? super K> transformer,
4312	>	long basis,
4313	>	LongByLongToLong reducer) {
4314	>	return ForkJoinTasks.reduceKeysToLong
4315	>	(map, transformer, basis, reducer).invoke();
4316		}
4317
4318		/**
#	Line 3896 \| Line 4327 \| public class ConcurrentHashMapV8<K, V>
4327		* @return the result of accumulating the given transformation
4328		* of all keys
4329		*/
4330	<	public int reduceKeysToInt(ObjectToInt<? super K> transformer,
4331	<	int basis,
4332	<	IntByIntToInt reducer) {
4333	<	return fjp.invoke(ForkJoinTasks.reduceKeysToInt
4334	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4330	>	public int reduceToInt(ObjectToInt<? super K> transformer,
4331	>	int basis,
4332	>	IntByIntToInt reducer) {
4333	>	return ForkJoinTasks.reduceKeysToInt
4334	>	(map, transformer, basis, reducer).invoke();
4335	>	}
4336	>
4337	>	}
4338	>
4339	>	/**
4340	>	* A view of a ConcurrentHashMapV8 as a {@link Collection} of
4341	>	* values, in which additions are disabled. This class cannot be
4342	>	* directly instantiated. See {@link #values},
4343	>	*
4344	>	* <p>The view's {@code iterator} is a "weakly consistent" iterator
4345	>	* that will never throw {@link ConcurrentModificationException},
4346	>	* and guarantees to traverse elements as they existed upon
4347	>	* construction of the iterator, and may (but is not guaranteed to)
4348	>	* reflect any modifications subsequent to construction.
4349	>	*/
4350	>	public static final class ValuesView<K,V> extends CHMView<K,V>
4351	>	implements Collection<V> {
4352	>	ValuesView(ConcurrentHashMapV8<K, V> map) { super(map); }
4353	>	public final boolean contains(Object o) { return map.containsValue(o); }
4354	>	public final boolean remove(Object o) {
4355	>	if (o != null) {
4356	>	Iterator<V> it = new ValueIterator<K,V>(map);
4357	>	while (it.hasNext()) {
4358	>	if (o.equals(it.next())) {
4359	>	it.remove();
4360	>	return true;
4361	>	}
4362	>	}
4363	>	}
4364	>	return false;
4365	>	}
4366	>
4367	>	/**
4368	>	* Returns a "weakly consistent" iterator that will never
4369	>	* throw {@link ConcurrentModificationException}, and
4370	>	* guarantees to traverse elements as they existed upon
4371	>	* construction of the iterator, and may (but is not
4372	>	* guaranteed to) reflect any modifications subsequent to
4373	>	* construction.
4374	>	*
4375	>	* @return an iterator over the values of this map
4376	>	*/
4377	>	public final Iterator<V> iterator() {
4378	>	return new ValueIterator<K,V>(map);
4379	>	}
4380	>	public final boolean add(V e) {
4381	>	throw new UnsupportedOperationException();
4382	>	}
4383	>	public final boolean addAll(Collection<? extends V> c) {
4384	>	throw new UnsupportedOperationException();
4385		}
4386
4387		/**
#	Line 3908 \| Line 4389 \| public class ConcurrentHashMapV8<K, V>
4389		*
4390		* @param action the action
4391		*/
4392	<	public void forEachValue(Action<V> action) {
4393	<	fjp.invoke(ForkJoinTasks.forEachValue
4394	<	(ConcurrentHashMapV8.this, action));
4392	>	public void forEach(Action<V> action) {
4393	>	ForkJoinTasks.forEachValue
4394	>	(map, action).invoke();
4395		}
4396
4397		/**
#	Line 3921 \| Line 4402 \| public class ConcurrentHashMapV8<K, V>
4402		* for an element, or null of there is no transformation (in
4403		* which case the action is not applied).
4404		*/
4405	<	public <U> void forEachValue(Fun<? super V, ? extends U> transformer,
4405	>	public <U> void forEach(Fun<? super V, ? extends U> transformer,
4406		Action<U> action) {
4407	<	fjp.invoke(ForkJoinTasks.forEachValue
4408	<	(ConcurrentHashMapV8.this, transformer, action));
4407	>	ForkJoinTasks.forEachValue
4408	>	(map, transformer, action).invoke();
4409		}
4410
4411		/**
#	Line 3940 \| Line 4421 \| public class ConcurrentHashMapV8<K, V>
4421		* function on each value, or null if none
4422		*
4423		*/
4424	<	public <U> U searchValues(Fun<? super V, ? extends U> searchFunction) {
4425	<	return fjp.invoke(ForkJoinTasks.searchValues
4426	<	(ConcurrentHashMapV8.this, searchFunction));
4424	>	public <U> U search(Fun<? super V, ? extends U> searchFunction) {
4425	>	return ForkJoinTasks.searchValues
4426	>	(map, searchFunction).invoke();
4427		}
4428
4429		/**
#	Line 3952 \| Line 4433 \| public class ConcurrentHashMapV8<K, V>
4433		* @param reducer a commutative associative combining function
4434		* @return the result of accumulating all values
4435		*/
4436	<	public V reduceValues(BiFun<? super V, ? super V, ? extends V> reducer) {
4437	<	return fjp.invoke(ForkJoinTasks.reduceValues
4438	<	(ConcurrentHashMapV8.this, reducer));
4436	>	public V reduce(BiFun<? super V, ? super V, ? extends V> reducer) {
4437	>	return ForkJoinTasks.reduceValues
4438	>	(map, reducer).invoke();
4439		}
4440
4441		/**
#	Line 3969 \| Line 4450 \| public class ConcurrentHashMapV8<K, V>
4450		* @return the result of accumulating the given transformation
4451		* of all values
4452		*/
4453	<	public <U> U reduceValues(Fun<? super V, ? extends U> transformer,
4454	<	BiFun<? super U, ? super U, ? extends U> reducer) {
4455	<	return fjp.invoke(ForkJoinTasks.reduceValues
4456	<	(ConcurrentHashMapV8.this, transformer, reducer));
4453	>	public <U> U reduce(Fun<? super V, ? extends U> transformer,
4454	>	BiFun<? super U, ? super U, ? extends U> reducer) {
4455	>	return ForkJoinTasks.reduceValues
4456	>	(map, transformer, reducer).invoke();
4457		}
4458
4459		/**
#	Line 3987 \| Line 4468 \| public class ConcurrentHashMapV8<K, V>
4468		* @return the result of accumulating the given transformation
4469		* of all values
4470		*/
4471	<	public double reduceValuesToDouble(ObjectToDouble<? super V> transformer,
4472	<	double basis,
4473	<	DoubleByDoubleToDouble reducer) {
4474	<	return fjp.invoke(ForkJoinTasks.reduceValuesToDouble
4475	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4471	>	public double reduceToDouble(ObjectToDouble<? super V> transformer,
4472	>	double basis,
4473	>	DoubleByDoubleToDouble reducer) {
4474	>	return ForkJoinTasks.reduceValuesToDouble
4475	>	(map, transformer, basis, reducer).invoke();
4476		}
4477
4478		/**
#	Line 4006 \| Line 4487 \| public class ConcurrentHashMapV8<K, V>
4487		* @return the result of accumulating the given transformation
4488		* of all values
4489		*/
4490	<	public long reduceValuesToLong(ObjectToLong<? super V> transformer,
4491	<	long basis,
4492	<	LongByLongToLong reducer) {
4493	<	return fjp.invoke(ForkJoinTasks.reduceValuesToLong
4494	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4490	>	public long reduceToLong(ObjectToLong<? super V> transformer,
4491	>	long basis,
4492	>	LongByLongToLong reducer) {
4493	>	return ForkJoinTasks.reduceValuesToLong
4494	>	(map, transformer, basis, reducer).invoke();
4495		}
4496
4497		/**
#	Line 4025 \| Line 4506 \| public class ConcurrentHashMapV8<K, V>
4506		* @return the result of accumulating the given transformation
4507		* of all values
4508		*/
4509	<	public int reduceValuesToInt(ObjectToInt<? super V> transformer,
4510	<	int basis,
4511	<	IntByIntToInt reducer) {
4512	<	return fjp.invoke(ForkJoinTasks.reduceValuesToInt
4513	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4509	>	public int reduceToInt(ObjectToInt<? super V> transformer,
4510	>	int basis,
4511	>	IntByIntToInt reducer) {
4512	>	return ForkJoinTasks.reduceValuesToInt
4513	>	(map, transformer, basis, reducer).invoke();
4514	>	}
4515	>
4516	>	}
4517	>
4518	>	/**
4519	>	* A view of a ConcurrentHashMapV8 as a {@link Set} of (key, value)
4520	>	* entries. This class cannot be directly instantiated. See
4521	>	* {@link #entrySet}.
4522	>	*/
4523	>	public static final class EntrySetView<K,V> extends CHMView<K,V>
4524	>	implements Set<Map.Entry<K,V>> {
4525	>	EntrySetView(ConcurrentHashMapV8<K, V> map) { super(map); }
4526	>	public final boolean contains(Object o) {
4527	>	Object k, v, r; Map.Entry<?,?> e;
4528	>	return ((o instanceof Map.Entry) &&
4529	>	(k = (e = (Map.Entry<?,?>)o).getKey()) != null &&
4530	>	(r = map.get(k)) != null &&
4531	>	(v = e.getValue()) != null &&
4532	>	(v == r \|\| v.equals(r)));
4533	>	}
4534	>	public final boolean remove(Object o) {
4535	>	Object k, v; Map.Entry<?,?> e;
4536	>	return ((o instanceof Map.Entry) &&
4537	>	(k = (e = (Map.Entry<?,?>)o).getKey()) != null &&
4538	>	(v = e.getValue()) != null &&
4539	>	map.remove(k, v));
4540	>	}
4541	>
4542	>	/**
4543	>	* Returns a "weakly consistent" iterator that will never
4544	>	* throw {@link ConcurrentModificationException}, and
4545	>	* guarantees to traverse elements as they existed upon
4546	>	* construction of the iterator, and may (but is not
4547	>	* guaranteed to) reflect any modifications subsequent to
4548	>	* construction.
4549	>	*
4550	>	* @return an iterator over the entries of this map
4551	>	*/
4552	>	public final Iterator<Map.Entry<K,V>> iterator() {
4553	>	return new EntryIterator<K,V>(map);
4554	>	}
4555	>
4556	>	public final boolean add(Entry<K,V> e) {
4557	>	K key = e.getKey();
4558	>	V value = e.getValue();
4559	>	if (key == null \|\| value == null)
4560	>	throw new NullPointerException();
4561	>	return map.internalPut(key, value) == null;
4562	>	}
4563	>	public final boolean addAll(Collection<? extends Entry<K,V>> c) {
4564	>	boolean added = false;
4565	>	for (Entry<K,V> e : c) {
4566	>	if (add(e))
4567	>	added = true;
4568	>	}
4569	>	return added;
4570	>	}
4571	>	public boolean equals(Object o) {
4572	>	Set<?> c;
4573	>	return ((o instanceof Set) &&
4574	>	((c = (Set<?>)o) == this \|\|
4575	>	(containsAll(c) && c.containsAll(this))));
4576		}
4577
4578		/**
#	Line 4037 \| Line 4580 \| public class ConcurrentHashMapV8<K, V>
4580		*
4581		* @param action the action
4582		*/
4583	<	public void forEachEntry(Action<Map.Entry<K,V>> action) {
4584	<	fjp.invoke(ForkJoinTasks.forEachEntry
4585	<	(ConcurrentHashMapV8.this, action));
4583	>	public void forEach(Action<Map.Entry<K,V>> action) {
4584	>	ForkJoinTasks.forEachEntry
4585	>	(map, action).invoke();
4586		}
4587
4588		/**
#	Line 4051 \| Line 4594 \| public class ConcurrentHashMapV8<K, V>
4594		* which case the action is not applied).
4595		* @param action the action
4596		*/
4597	<	public <U> void forEachEntry(Fun<Map.Entry<K,V>, ? extends U> transformer,
4598	<	Action<U> action) {
4599	<	fjp.invoke(ForkJoinTasks.forEachEntry
4600	<	(ConcurrentHashMapV8.this, transformer, action));
4597	>	public <U> void forEach(Fun<Map.Entry<K,V>, ? extends U> transformer,
4598	>	Action<U> action) {
4599	>	ForkJoinTasks.forEachEntry
4600	>	(map, transformer, action).invoke();
4601		}
4602
4603		/**
#	Line 4069 \| Line 4612 \| public class ConcurrentHashMapV8<K, V>
4612		* @return a non-null result from applying the given search
4613		* function on each entry, or null if none
4614		*/
4615	<	public <U> U searchEntries(Fun<Map.Entry<K,V>, ? extends U> searchFunction) {
4616	<	return fjp.invoke(ForkJoinTasks.searchEntries
4617	<	(ConcurrentHashMapV8.this, searchFunction));
4615	>	public <U> U search(Fun<Map.Entry<K,V>, ? extends U> searchFunction) {
4616	>	return ForkJoinTasks.searchEntries
4617	>	(map, searchFunction).invoke();
4618		}
4619
4620		/**
#	Line 4081 \| Line 4624 \| public class ConcurrentHashMapV8<K, V>
4624		* @param reducer a commutative associative combining function
4625		* @return the result of accumulating all entries
4626		*/
4627	<	public Map.Entry<K,V> reduceEntries(BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) {
4628	<	return fjp.invoke(ForkJoinTasks.reduceEntries
4629	<	(ConcurrentHashMapV8.this, reducer));
4627	>	public Map.Entry<K,V> reduce(BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) {
4628	>	return ForkJoinTasks.reduceEntries
4629	>	(map, reducer).invoke();
4630		}
4631
4632		/**
#	Line 4098 \| Line 4641 \| public class ConcurrentHashMapV8<K, V>
4641		* @return the result of accumulating the given transformation
4642		* of all entries
4643		*/
4644	<	public <U> U reduceEntries(Fun<Map.Entry<K,V>, ? extends U> transformer,
4645	<	BiFun<? super U, ? super U, ? extends U> reducer) {
4646	<	return fjp.invoke(ForkJoinTasks.reduceEntries
4647	<	(ConcurrentHashMapV8.this, transformer, reducer));
4644	>	public <U> U reduce(Fun<Map.Entry<K,V>, ? extends U> transformer,
4645	>	BiFun<? super U, ? super U, ? extends U> reducer) {
4646	>	return ForkJoinTasks.reduceEntries
4647	>	(map, transformer, reducer).invoke();
4648		}
4649
4650		/**
#	Line 4116 \| Line 4659 \| public class ConcurrentHashMapV8<K, V>
4659		* @return the result of accumulating the given transformation
4660		* of all entries
4661		*/
4662	<	public double reduceEntriesToDouble(ObjectToDouble<Map.Entry<K,V>> transformer,
4663	<	double basis,
4664	<	DoubleByDoubleToDouble reducer) {
4665	<	return fjp.invoke(ForkJoinTasks.reduceEntriesToDouble
4666	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4662	>	public double reduceToDouble(ObjectToDouble<Map.Entry<K,V>> transformer,
4663	>	double basis,
4664	>	DoubleByDoubleToDouble reducer) {
4665	>	return ForkJoinTasks.reduceEntriesToDouble
4666	>	(map, transformer, basis, reducer).invoke();
4667		}
4668
4669		/**
#	Line 4135 \| Line 4678 \| public class ConcurrentHashMapV8<K, V>
4678		* @return the result of accumulating the given transformation
4679		* of all entries
4680		*/
4681	<	public long reduceEntriesToLong(ObjectToLong<Map.Entry<K,V>> transformer,
4682	<	long basis,
4683	<	LongByLongToLong reducer) {
4684	<	return fjp.invoke(ForkJoinTasks.reduceEntriesToLong
4685	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4681	>	public long reduceToLong(ObjectToLong<Map.Entry<K,V>> transformer,
4682	>	long basis,
4683	>	LongByLongToLong reducer) {
4684	>	return ForkJoinTasks.reduceEntriesToLong
4685	>	(map, transformer, basis, reducer).invoke();
4686		}
4687
4688		/**
#	Line 4154 \| Line 4697 \| public class ConcurrentHashMapV8<K, V>
4697		* @return the result of accumulating the given transformation
4698		* of all entries
4699		*/
4700	<	public int reduceEntriesToInt(ObjectToInt<Map.Entry<K,V>> transformer,
4701	<	int basis,
4702	<	IntByIntToInt reducer) {
4703	<	return fjp.invoke(ForkJoinTasks.reduceEntriesToInt
4704	<	(ConcurrentHashMapV8.this, transformer, basis, reducer));
4700	>	public int reduceToInt(ObjectToInt<Map.Entry<K,V>> transformer,
4701	>	int basis,
4702	>	IntByIntToInt reducer) {
4703	>	return ForkJoinTasks.reduceEntriesToInt
4704	>	(map, transformer, basis, reducer).invoke();
4705		}
4706	+
4707		}
4708
4709		// ---------------------------------------------------------------------
4710
4711		/**
4712		* Predefined tasks for performing bulk parallel operations on
4713	<	* ConcurrentHashMaps. These tasks follow the forms and rules used
4714	<	* in class {@link Parallel}. Each method has the same name, but
4715	<	* returns a task rather than invoking it. These methods may be
4716	<	* useful in custom applications such as submitting a task without
4717	<	* waiting for completion, or combining with other tasks.
4713	>	* ConcurrentHashMapV8s. These tasks follow the forms and rules used
4714	>	* for bulk operations. Each method has the same name, but returns
4715	>	* a task rather than invoking it. These methods may be useful in
4716	>	* custom applications such as submitting a task without waiting
4717	>	* for completion, using a custom pool, or combining with other
4718	>	* tasks.
4719		*/
4720		public static class ForkJoinTasks {
4721		private ForkJoinTasks() {}
#	Line 4196 \| Line 4741 \| public class ConcurrentHashMapV8<K, V>
4741		*
4742		* @param map the map
4743		* @param transformer a function returning the transformation
4744	<	* for an element, or null of there is no transformation (in
4745	<	* which case the action is not applied).
4744	>	* for an element, or null if there is no transformation (in
4745	>	* which case the action is not applied)
4746		* @param action the action
4747		* @return the task
4748		*/
#	Line 4239 \| Line 4784 \| public class ConcurrentHashMapV8<K, V>
4784		*
4785		* @param map the map
4786		* @param transformer a function returning the transformation
4787	<	* for an element, or null of there is no transformation (in
4787	>	* for an element, or null if there is no transformation (in
4788		* which case it is not combined).
4789		* @param reducer a commutative associative combining function
4790		* @return the task
#	Line 4346 \| Line 4891 \| public class ConcurrentHashMapV8<K, V>
4891		*
4892		* @param map the map
4893		* @param transformer a function returning the transformation
4894	<	* for an element, or null of there is no transformation (in
4895	<	* which case the action is not applied).
4894	>	* for an element, or null if there is no transformation (in
4895	>	* which case the action is not applied)
4896		* @param action the action
4897		* @return the task
4898		*/
#	Line 4406 \| Line 4951 \| public class ConcurrentHashMapV8<K, V>
4951		*
4952		* @param map the map
4953		* @param transformer a function returning the transformation
4954	<	* for an element, or null of there is no transformation (in
4954	>	* for an element, or null if there is no transformation (in
4955		* which case it is not combined).
4956		* @param reducer a commutative associative combining function
4957		* @return the task
#	Line 4513 \| Line 5058 \| public class ConcurrentHashMapV8<K, V>
5058		*
5059		* @param map the map
5060		* @param transformer a function returning the transformation
5061	<	* for an element, or null of there is no transformation (in
5062	<	* which case the action is not applied).
5061	>	* for an element, or null if there is no transformation (in
5062	>	* which case the action is not applied)
5063		* @param action the action
5064		*/
5065		public static <K,V,U> ForkJoinTask<Void> forEachValue
#	Line 4538 \| Line 5083 \| public class ConcurrentHashMapV8<K, V>
5083		* @param searchFunction a function returning a non-null
5084		* result on success, else null
5085		* @return the task
4541	–	*
5086		*/
5087		public static <K,V,U> ForkJoinTask<U> searchValues
5088		(ConcurrentHashMapV8<K,V> map,
#	Line 4573 \| Line 5117 \| public class ConcurrentHashMapV8<K, V>
5117		*
5118		* @param map the map
5119		* @param transformer a function returning the transformation
5120	<	* for an element, or null of there is no transformation (in
5120	>	* for an element, or null if there is no transformation (in
5121		* which case it is not combined).
5122		* @param reducer a commutative associative combining function
5123		* @return the task
#	Line 4680 \| Line 5224 \| public class ConcurrentHashMapV8<K, V>
5224		*
5225		* @param map the map
5226		* @param transformer a function returning the transformation
5227	<	* for an element, or null of there is no transformation (in
5228	<	* which case the action is not applied).
5227	>	* for an element, or null if there is no transformation (in
5228	>	* which case the action is not applied)
5229		* @param action the action
5230		*/
5231		public static <K,V,U> ForkJoinTask<Void> forEachEntry
#	Line 4705 \| Line 5249 \| public class ConcurrentHashMapV8<K, V>
5249		* @param searchFunction a function returning a non-null
5250		* result on success, else null
5251		* @return the task
4708	–	*
5252		*/
5253		public static <K,V,U> ForkJoinTask<U> searchEntries
5254		(ConcurrentHashMapV8<K,V> map,
#	Line 4740 \| Line 5283 \| public class ConcurrentHashMapV8<K, V>
5283		*
5284		* @param map the map
5285		* @param transformer a function returning the transformation
5286	<	* for an element, or null of there is no transformation (in
5286	>	* for an element, or null if there is no transformation (in
5287		* which case it is not combined).
5288		* @param reducer a commutative associative combining function
5289		* @return the task
#	Line 4830 \| Line 5373 \| public class ConcurrentHashMapV8<K, V>
5373
5374		// -------------------------------------------------------
5375
4833	–	/**
4834	–	* Base for FJ tasks for bulk operations. This adds a variant of
4835	–	* CountedCompleters and some split and merge bookkeeping to
4836	–	* iterator functionality. The forEach and reduce methods are
4837	–	* similar to those illustrated in CountedCompleter documentation,
4838	–	* except that bottom-up reduction completions perform them within
4839	–	* their compute methods. The search methods are like forEach
4840	–	* except they continually poll for success and exit early. Also,
4841	–	* exceptions are handled in a simpler manner, by just trying to
4842	–	* complete root task exceptionally.
4843	–	*/
4844	–	@SuppressWarnings("serial") static abstract class BulkTask<K,V,R> extends Traverser<K,V,R> {
4845	–	final BulkTask<K,V,?> parent; // completion target
4846	–	int batch; // split control; -1 for unknown
4847	–	int pending; // completion control
4848	–
4849	–	BulkTask(ConcurrentHashMapV8<K,V> map, BulkTask<K,V,?> parent,
4850	–	int batch) {
4851	–	super(map);
4852	–	this.parent = parent;
4853	–	this.batch = batch;
4854	–	if (parent != null && map != null) { // split parent
4855	–	Node[] t;
4856	–	if ((t = parent.tab) == null &&
4857	–	(t = parent.tab = map.table) != null)
4858	–	parent.baseLimit = parent.baseSize = t.length;
4859	–	this.tab = t;
4860	–	this.baseSize = parent.baseSize;
4861	–	int hi = this.baseLimit = parent.baseLimit;
4862	–	parent.baseLimit = this.index = this.baseIndex =
4863	–	(hi + parent.baseIndex + 1) >>> 1;
4864	–	}
4865	–	}
4866	–
4867	–	// FJ methods
4868	–
4869	–	/**
4870	–	* Propagates completion. Note that all reduce actions
4871	–	* bypass this method to combine while completing.
4872	–	*/
4873	–	final void tryComplete() {
4874	–	BulkTask<K,V,?> a = this, s = a;
4875	–	for (int c;;) {
4876	–	if ((c = a.pending) == 0) {
4877	–	if ((a = (s = a).parent) == null) {
4878	–	s.quietlyComplete();
4879	–	break;
4880	–	}
4881	–	}
4882	–	else if (U.compareAndSwapInt(a, PENDING, c, c - 1))
4883	–	break;
4884	–	}
4885	–	}
4886	–
4887	–	/**
4888	–	* Forces root task to complete.
4889	–	* @param ex if null, complete normally, else exceptionally
4890	–	* @return false to simplify use
4891	–	*/
4892	–	final boolean tryCompleteComputation(Throwable ex) {
4893	–	for (BulkTask<K,V,?> a = this;;) {
4894	–	BulkTask<K,V,?> p = a.parent;
4895	–	if (p == null) {
4896	–	if (ex != null)
4897	–	a.completeExceptionally(ex);
4898	–	else
4899	–	a.quietlyComplete();
4900	–	return false;
4901	–	}
4902	–	a = p;
4903	–	}
4904	–	}
4905	–
4906	–	/**
4907	–	* Version of tryCompleteComputation for function screening checks
4908	–	*/
4909	–	final boolean abortOnNullFunction() {
4910	–	return tryCompleteComputation(new Error("Unexpected null function"));
4911	–	}
4912	–
4913	–	// utilities
4914	–
4915	–	/** CompareAndSet pending count */
4916	–	final boolean casPending(int cmp, int val) {
4917	–	return U.compareAndSwapInt(this, PENDING, cmp, val);
4918	–	}
4919	–
4920	–	/**
4921	–	* Returns approx exp2 of the number of times (minus one) to
4922	–	* split task by two before executing leaf action. This value
4923	–	* is faster to compute and more convenient to use as a guide
4924	–	* to splitting than is the depth, since it is used while
4925	–	* dividing by two anyway.
4926	–	*/
4927	–	final int batch() {
4928	–	ConcurrentHashMapV8<K, V> m; int b; Node[] t;
4929	–	if ((b = batch) < 0 && (m = map) != null) { // force initialization
4930	–	if ((t = tab) == null && (t = tab = m.table) != null)
4931	–	baseLimit = baseSize = t.length;
4932	–	if (t != null) {
4933	–	long n = m.counter.sum();
4934	–	int sp = getPool().getParallelism() << 3; // slack of 8
4935	–	b = batch = (n <= 0L) ? 0 : (n < (long)sp) ? (int)n : sp;
4936	–	}
4937	–	}
4938	–	return b;
4939	–	}
4940	–
4941	–	/**
4942	–	* Returns exportable snapshot entry.
4943	–	*/
4944	–	static <K,V> AbstractMap.SimpleEntry<K,V> entryFor(K k, V v) {
4945	–	return new AbstractMap.SimpleEntry<K,V>(k, v);
4946	–	}
4947	–
4948	–	// Unsafe mechanics
4949	–	private static final sun.misc.Unsafe U;
4950	–	private static final long PENDING;
4951	–	static {
4952	–	try {
4953	–	U = getUnsafe();
4954	–	PENDING = U.objectFieldOffset
4955	–	(BulkTask.class.getDeclaredField("pending"));
4956	–	} catch (Exception e) {
4957	–	throw new Error(e);
4958	–	}
4959	–	}
4960	–	}
4961	–
5376		/*
5377		* Task classes. Coded in a regular but ugly format/style to
5378		* simplify checks that each variant differs in the right way from
#	Line 4966 \| Line 5380 \| public class ConcurrentHashMapV8<K, V>
5380		*/
5381
5382		@SuppressWarnings("serial") static final class ForEachKeyTask<K,V>
5383	<	extends BulkTask<K,V,Void> {
5383	>	extends Traverser<K,V,Void> {
5384		final Action<K> action;
5385		ForEachKeyTask
5386	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5386	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5387		Action<K> action) {
5388		super(m, p, b);
5389		this.action = action;
5390		}
5391	<	@SuppressWarnings("unchecked") public final boolean exec() {
5392	<	final Action<K> action = this.action;
5393	<	if (action == null)
5394	<	return abortOnNullFunction();
5395	<	try {
5396	<	int b = batch(), c;
5397	<	while (b > 1 && baseIndex != baseLimit) {
5398	<	do {} while (!casPending(c = pending, c+1));
5399	<	new ForEachKeyTask<K,V>(map, this, b >>>= 1, action).fork();
4986	<	}
4987	<	while (advance() != null)
4988	<	action.apply((K)nextKey);
4989	<	tryComplete();
4990	<	} catch (Throwable ex) {
4991	<	return tryCompleteComputation(ex);
4992	<	}
4993	<	return false;
5391	>	@SuppressWarnings("unchecked") public final void compute() {
5392	>	final Action<K> action;
5393	>	if ((action = this.action) == null)
5394	>	throw new NullPointerException();
5395	>	for (int b; (b = preSplit()) > 0;)
5396	>	new ForEachKeyTask<K,V>(map, this, b, action).fork();
5397	>	while (advance() != null)
5398	>	action.apply((K)nextKey);
5399	>	propagateCompletion();
5400		}
5401		}
5402
5403		@SuppressWarnings("serial") static final class ForEachValueTask<K,V>
5404	<	extends BulkTask<K,V,Void> {
5404	>	extends Traverser<K,V,Void> {
5405		final Action<V> action;
5406		ForEachValueTask
5407	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5407	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5408		Action<V> action) {
5409		super(m, p, b);
5410		this.action = action;
5411		}
5412	<	@SuppressWarnings("unchecked") public final boolean exec() {
5413	<	final Action<V> action = this.action;
5414	<	if (action == null)
5415	<	return abortOnNullFunction();
5416	<	try {
5417	<	int b = batch(), c;
5418	<	while (b > 1 && baseIndex != baseLimit) {
5419	<	do {} while (!casPending(c = pending, c+1));
5420	<	new ForEachValueTask<K,V>(map, this, b >>>= 1, action).fork();
5421	<	}
5016	<	Object v;
5017	<	while ((v = advance()) != null)
5018	<	action.apply((V)v);
5019	<	tryComplete();
5020	<	} catch (Throwable ex) {
5021	<	return tryCompleteComputation(ex);
5022	<	}
5023	<	return false;
5412	>	@SuppressWarnings("unchecked") public final void compute() {
5413	>	final Action<V> action;
5414	>	if ((action = this.action) == null)
5415	>	throw new NullPointerException();
5416	>	for (int b; (b = preSplit()) > 0;)
5417	>	new ForEachValueTask<K,V>(map, this, b, action).fork();
5418	>	Object v;
5419	>	while ((v = advance()) != null)
5420	>	action.apply((V)v);
5421	>	propagateCompletion();
5422		}
5423		}
5424
5425		@SuppressWarnings("serial") static final class ForEachEntryTask<K,V>
5426	<	extends BulkTask<K,V,Void> {
5426	>	extends Traverser<K,V,Void> {
5427		final Action<Entry<K,V>> action;
5428		ForEachEntryTask
5429	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5429	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5430		Action<Entry<K,V>> action) {
5431		super(m, p, b);
5432		this.action = action;
5433		}
5434	<	@SuppressWarnings("unchecked") public final boolean exec() {
5435	<	final Action<Entry<K,V>> action = this.action;
5436	<	if (action == null)
5437	<	return abortOnNullFunction();
5438	<	try {
5439	<	int b = batch(), c;
5440	<	while (b > 1 && baseIndex != baseLimit) {
5441	<	do {} while (!casPending(c = pending, c+1));
5442	<	new ForEachEntryTask<K,V>(map, this, b >>>= 1, action).fork();
5443	<	}
5046	<	Object v;
5047	<	while ((v = advance()) != null)
5048	<	action.apply(entryFor((K)nextKey, (V)v));
5049	<	tryComplete();
5050	<	} catch (Throwable ex) {
5051	<	return tryCompleteComputation(ex);
5052	<	}
5053	<	return false;
5434	>	@SuppressWarnings("unchecked") public final void compute() {
5435	>	final Action<Entry<K,V>> action;
5436	>	if ((action = this.action) == null)
5437	>	throw new NullPointerException();
5438	>	for (int b; (b = preSplit()) > 0;)
5439	>	new ForEachEntryTask<K,V>(map, this, b, action).fork();
5440	>	Object v;
5441	>	while ((v = advance()) != null)
5442	>	action.apply(entryFor((K)nextKey, (V)v));
5443	>	propagateCompletion();
5444		}
5445		}
5446
5447		@SuppressWarnings("serial") static final class ForEachMappingTask<K,V>
5448	<	extends BulkTask<K,V,Void> {
5448	>	extends Traverser<K,V,Void> {
5449		final BiAction<K,V> action;
5450		ForEachMappingTask
5451	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5451	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5452		BiAction<K,V> action) {
5453		super(m, p, b);
5454		this.action = action;
5455		}
5456	<	@SuppressWarnings("unchecked") public final boolean exec() {
5457	<	final BiAction<K,V> action = this.action;
5458	<	if (action == null)
5459	<	return abortOnNullFunction();
5460	<	try {
5461	<	int b = batch(), c;
5462	<	while (b > 1 && baseIndex != baseLimit) {
5463	<	do {} while (!casPending(c = pending, c+1));
5464	<	new ForEachMappingTask<K,V>(map, this, b >>>= 1,
5465	<	action).fork();
5076	<	}
5077	<	Object v;
5078	<	while ((v = advance()) != null)
5079	<	action.apply((K)nextKey, (V)v);
5080	<	tryComplete();
5081	<	} catch (Throwable ex) {
5082	<	return tryCompleteComputation(ex);
5083	<	}
5084	<	return false;
5456	>	@SuppressWarnings("unchecked") public final void compute() {
5457	>	final BiAction<K,V> action;
5458	>	if ((action = this.action) == null)
5459	>	throw new NullPointerException();
5460	>	for (int b; (b = preSplit()) > 0;)
5461	>	new ForEachMappingTask<K,V>(map, this, b, action).fork();
5462	>	Object v;
5463	>	while ((v = advance()) != null)
5464	>	action.apply((K)nextKey, (V)v);
5465	>	propagateCompletion();
5466		}
5467		}
5468
5469		@SuppressWarnings("serial") static final class ForEachTransformedKeyTask<K,V,U>
5470	<	extends BulkTask<K,V,Void> {
5470	>	extends Traverser<K,V,Void> {
5471		final Fun<? super K, ? extends U> transformer;
5472		final Action<U> action;
5473		ForEachTransformedKeyTask
5474	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5475	<	Fun<? super K, ? extends U> transformer,
5095	<	Action<U> action) {
5474	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5475	>	Fun<? super K, ? extends U> transformer, Action<U> action) {
5476		super(m, p, b);
5477	<	this.transformer = transformer;
5098	<	this.action = action;
5099	<
5477	>	this.transformer = transformer; this.action = action;
5478		}
5479	<	@SuppressWarnings("unchecked") public final boolean exec() {
5480	<	final Fun<? super K, ? extends U> transformer =
5481	<	this.transformer;
5482	<	final Action<U> action = this.action;
5483	<	if (transformer == null \|\| action == null)
5484	<	return abortOnNullFunction();
5485	<	try {
5486	<	int b = batch(), c;
5487	<	while (b > 1 && baseIndex != baseLimit) {
5488	<	do {} while (!casPending(c = pending, c+1));
5489	<	new ForEachTransformedKeyTask<K,V,U>
5490	<	(map, this, b >>>= 1, transformer, action).fork();
5491	<	}
5114	<	U u;
5115	<	while (advance() != null) {
5116	<	if ((u = transformer.apply((K)nextKey)) != null)
5117	<	action.apply(u);
5118	<	}
5119	<	tryComplete();
5120	<	} catch (Throwable ex) {
5121	<	return tryCompleteComputation(ex);
5479	>	@SuppressWarnings("unchecked") public final void compute() {
5480	>	final Fun<? super K, ? extends U> transformer;
5481	>	final Action<U> action;
5482	>	if ((transformer = this.transformer) == null \|\|
5483	>	(action = this.action) == null)
5484	>	throw new NullPointerException();
5485	>	for (int b; (b = preSplit()) > 0;)
5486	>	new ForEachTransformedKeyTask<K,V,U>
5487	>	(map, this, b, transformer, action).fork();
5488	>	U u;
5489	>	while (advance() != null) {
5490	>	if ((u = transformer.apply((K)nextKey)) != null)
5491	>	action.apply(u);
5492		}
5493	<	return false;
5493	>	propagateCompletion();
5494		}
5495		}
5496
5497		@SuppressWarnings("serial") static final class ForEachTransformedValueTask<K,V,U>
5498	<	extends BulkTask<K,V,Void> {
5498	>	extends Traverser<K,V,Void> {
5499		final Fun<? super V, ? extends U> transformer;
5500		final Action<U> action;
5501		ForEachTransformedValueTask
5502	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5503	<	Fun<? super V, ? extends U> transformer,
5134	<	Action<U> action) {
5502	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5503	>	Fun<? super V, ? extends U> transformer, Action<U> action) {
5504		super(m, p, b);
5505	<	this.transformer = transformer;
5137	<	this.action = action;
5138	<
5505	>	this.transformer = transformer; this.action = action;
5506		}
5507	<	@SuppressWarnings("unchecked") public final boolean exec() {
5508	<	final Fun<? super V, ? extends U> transformer =
5509	<	this.transformer;
5510	<	final Action<U> action = this.action;
5511	<	if (transformer == null \|\| action == null)
5512	<	return abortOnNullFunction();
5513	<	try {
5514	<	int b = batch(), c;
5515	<	while (b > 1 && baseIndex != baseLimit) {
5516	<	do {} while (!casPending(c = pending, c+1));
5517	<	new ForEachTransformedValueTask<K,V,U>
5518	<	(map, this, b >>>= 1, transformer, action).fork();
5519	<	}
5153	<	Object v; U u;
5154	<	while ((v = advance()) != null) {
5155	<	if ((u = transformer.apply((V)v)) != null)
5156	<	action.apply(u);
5157	<	}
5158	<	tryComplete();
5159	<	} catch (Throwable ex) {
5160	<	return tryCompleteComputation(ex);
5507	>	@SuppressWarnings("unchecked") public final void compute() {
5508	>	final Fun<? super V, ? extends U> transformer;
5509	>	final Action<U> action;
5510	>	if ((transformer = this.transformer) == null \|\|
5511	>	(action = this.action) == null)
5512	>	throw new NullPointerException();
5513	>	for (int b; (b = preSplit()) > 0;)
5514	>	new ForEachTransformedValueTask<K,V,U>
5515	>	(map, this, b, transformer, action).fork();
5516	>	Object v; U u;
5517	>	while ((v = advance()) != null) {
5518	>	if ((u = transformer.apply((V)v)) != null)
5519	>	action.apply(u);
5520		}
5521	<	return false;
5521	>	propagateCompletion();
5522		}
5523		}
5524
5525		@SuppressWarnings("serial") static final class ForEachTransformedEntryTask<K,V,U>
5526	<	extends BulkTask<K,V,Void> {
5526	>	extends Traverser<K,V,Void> {
5527		final Fun<Map.Entry<K,V>, ? extends U> transformer;
5528		final Action<U> action;
5529		ForEachTransformedEntryTask
5530	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5531	<	Fun<Map.Entry<K,V>, ? extends U> transformer,
5173	<	Action<U> action) {
5530	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5531	>	Fun<Map.Entry<K,V>, ? extends U> transformer, Action<U> action) {
5532		super(m, p, b);
5533	<	this.transformer = transformer;
5176	<	this.action = action;
5177	<
5533	>	this.transformer = transformer; this.action = action;
5534		}
5535	<	@SuppressWarnings("unchecked") public final boolean exec() {
5536	<	final Fun<Map.Entry<K,V>, ? extends U> transformer =
5537	<	this.transformer;
5538	<	final Action<U> action = this.action;
5539	<	if (transformer == null \|\| action == null)
5540	<	return abortOnNullFunction();
5541	<	try {
5542	<	int b = batch(), c;
5543	<	while (b > 1 && baseIndex != baseLimit) {
5544	<	do {} while (!casPending(c = pending, c+1));
5545	<	new ForEachTransformedEntryTask<K,V,U>
5546	<	(map, this, b >>>= 1, transformer, action).fork();
5547	<	}
5192	<	Object v; U u;
5193	<	while ((v = advance()) != null) {
5194	<	if ((u = transformer.apply(entryFor((K)nextKey, (V)v))) != null)
5195	<	action.apply(u);
5196	<	}
5197	<	tryComplete();
5198	<	} catch (Throwable ex) {
5199	<	return tryCompleteComputation(ex);
5535	>	@SuppressWarnings("unchecked") public final void compute() {
5536	>	final Fun<Map.Entry<K,V>, ? extends U> transformer;
5537	>	final Action<U> action;
5538	>	if ((transformer = this.transformer) == null \|\|
5539	>	(action = this.action) == null)
5540	>	throw new NullPointerException();
5541	>	for (int b; (b = preSplit()) > 0;)
5542	>	new ForEachTransformedEntryTask<K,V,U>
5543	>	(map, this, b, transformer, action).fork();
5544	>	Object v; U u;
5545	>	while ((v = advance()) != null) {
5546	>	if ((u = transformer.apply(entryFor((K)nextKey, (V)v))) != null)
5547	>	action.apply(u);
5548		}
5549	<	return false;
5549	>	propagateCompletion();
5550		}
5551		}
5552
5553		@SuppressWarnings("serial") static final class ForEachTransformedMappingTask<K,V,U>
5554	<	extends BulkTask<K,V,Void> {
5554	>	extends Traverser<K,V,Void> {
5555		final BiFun<? super K, ? super V, ? extends U> transformer;
5556		final Action<U> action;
5557		ForEachTransformedMappingTask
5558	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5558	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5559		BiFun<? super K, ? super V, ? extends U> transformer,
5560		Action<U> action) {
5561		super(m, p, b);
5562	<	this.transformer = transformer;
5215	<	this.action = action;
5216	<
5562	>	this.transformer = transformer; this.action = action;
5563		}
5564	<	@SuppressWarnings("unchecked") public final boolean exec() {
5565	<	final BiFun<? super K, ? super V, ? extends U> transformer =
5566	<	this.transformer;
5567	<	final Action<U> action = this.action;
5568	<	if (transformer == null \|\| action == null)
5569	<	return abortOnNullFunction();
5570	<	try {
5571	<	int b = batch(), c;
5572	<	while (b > 1 && baseIndex != baseLimit) {
5573	<	do {} while (!casPending(c = pending, c+1));
5574	<	new ForEachTransformedMappingTask<K,V,U>
5575	<	(map, this, b >>>= 1, transformer, action).fork();
5576	<	}
5231	<	Object v; U u;
5232	<	while ((v = advance()) != null) {
5233	<	if ((u = transformer.apply((K)nextKey, (V)v)) != null)
5234	<	action.apply(u);
5235	<	}
5236	<	tryComplete();
5237	<	} catch (Throwable ex) {
5238	<	return tryCompleteComputation(ex);
5564	>	@SuppressWarnings("unchecked") public final void compute() {
5565	>	final BiFun<? super K, ? super V, ? extends U> transformer;
5566	>	final Action<U> action;
5567	>	if ((transformer = this.transformer) == null \|\|
5568	>	(action = this.action) == null)
5569	>	throw new NullPointerException();
5570	>	for (int b; (b = preSplit()) > 0;)
5571	>	new ForEachTransformedMappingTask<K,V,U>
5572	>	(map, this, b, transformer, action).fork();
5573	>	Object v; U u;
5574	>	while ((v = advance()) != null) {
5575	>	if ((u = transformer.apply((K)nextKey, (V)v)) != null)
5576	>	action.apply(u);
5577		}
5578	<	return false;
5578	>	propagateCompletion();
5579		}
5580		}
5581
5582		@SuppressWarnings("serial") static final class SearchKeysTask<K,V,U>
5583	<	extends BulkTask<K,V,U> {
5583	>	extends Traverser<K,V,U> {
5584		final Fun<? super K, ? extends U> searchFunction;
5585		final AtomicReference<U> result;
5586		SearchKeysTask
5587	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5587	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5588		Fun<? super K, ? extends U> searchFunction,
5589		AtomicReference<U> result) {
5590		super(m, p, b);
5591		this.searchFunction = searchFunction; this.result = result;
5592		}
5593	<	@SuppressWarnings("unchecked") public final boolean exec() {
5594	<	AtomicReference<U> result = this.result;
5595	<	final Fun<? super K, ? extends U> searchFunction =
5596	<	this.searchFunction;
5597	<	if (searchFunction == null \|\| result == null)
5598	<	return abortOnNullFunction();
5599	<	try {
5600	<	int b = batch(), c;
5601	<	while (b > 1 && baseIndex != baseLimit && result.get() == null) {
5602	<	do {} while (!casPending(c = pending, c+1));
5603	<	new SearchKeysTask<K,V,U>(map, this, b >>>= 1,
5604	<	searchFunction, result).fork();
5605	<	}
5593	>	public final U getRawResult() { return result.get(); }
5594	>	@SuppressWarnings("unchecked") public final void compute() {
5595	>	final Fun<? super K, ? extends U> searchFunction;
5596	>	final AtomicReference<U> result;
5597	>	if ((searchFunction = this.searchFunction) == null \|\|
5598	>	(result = this.result) == null)
5599	>	throw new NullPointerException();
5600	>	for (int b;;) {
5601	>	if (result.get() != null)
5602	>	return;
5603	>	if ((b = preSplit()) <= 0)
5604	>	break;
5605	>	new SearchKeysTask<K,V,U>
5606	>	(map, this, b, searchFunction, result).fork();
5607	>	}
5608	>	while (result.get() == null) {
5609		U u;
5610	<	while (result.get() == null && advance() != null) {
5611	<	if ((u = searchFunction.apply((K)nextKey)) != null) {
5612	<	if (result.compareAndSet(null, u))
5613	<	tryCompleteComputation(null);
5614	<	break;
5615	<	}
5610	>	if (advance() == null) {
5611	>	propagateCompletion();
5612	>	break;
5613	>	}
5614	>	if ((u = searchFunction.apply((K)nextKey)) != null) {
5615	>	if (result.compareAndSet(null, u))
5616	>	quietlyCompleteRoot();
5617	>	break;
5618		}
5276	–	tryComplete();
5277	–	} catch (Throwable ex) {
5278	–	return tryCompleteComputation(ex);
5619		}
5280	–	return false;
5620		}
5282	–	public final U getRawResult() { return result.get(); }
5621		}
5622
5623		@SuppressWarnings("serial") static final class SearchValuesTask<K,V,U>
5624	<	extends BulkTask<K,V,U> {
5624	>	extends Traverser<K,V,U> {
5625		final Fun<? super V, ? extends U> searchFunction;
5626		final AtomicReference<U> result;
5627		SearchValuesTask
5628	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5628	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5629		Fun<? super V, ? extends U> searchFunction,
5630		AtomicReference<U> result) {
5631		super(m, p, b);
5632		this.searchFunction = searchFunction; this.result = result;
5633		}
5634	<	@SuppressWarnings("unchecked") public final boolean exec() {
5635	<	AtomicReference<U> result = this.result;
5636	<	final Fun<? super V, ? extends U> searchFunction =
5637	<	this.searchFunction;
5638	<	if (searchFunction == null \|\| result == null)
5639	<	return abortOnNullFunction();
5640	<	try {
5641	<	int b = batch(), c;
5642	<	while (b > 1 && baseIndex != baseLimit && result.get() == null) {
5643	<	do {} while (!casPending(c = pending, c+1));
5644	<	new SearchValuesTask<K,V,U>(map, this, b >>>= 1,
5645	<	searchFunction, result).fork();
5646	<	}
5634	>	public final U getRawResult() { return result.get(); }
5635	>	@SuppressWarnings("unchecked") public final void compute() {
5636	>	final Fun<? super V, ? extends U> searchFunction;
5637	>	final AtomicReference<U> result;
5638	>	if ((searchFunction = this.searchFunction) == null \|\|
5639	>	(result = this.result) == null)
5640	>	throw new NullPointerException();
5641	>	for (int b;;) {
5642	>	if (result.get() != null)
5643	>	return;
5644	>	if ((b = preSplit()) <= 0)
5645	>	break;
5646	>	new SearchValuesTask<K,V,U>
5647	>	(map, this, b, searchFunction, result).fork();
5648	>	}
5649	>	while (result.get() == null) {
5650		Object v; U u;
5651	<	while (result.get() == null && (v = advance()) != null) {
5652	<	if ((u = searchFunction.apply((V)v)) != null) {
5653	<	if (result.compareAndSet(null, u))
5654	<	tryCompleteComputation(null);
5655	<	break;
5656	<	}
5651	>	if ((v = advance()) == null) {
5652	>	propagateCompletion();
5653	>	break;
5654	>	}
5655	>	if ((u = searchFunction.apply((V)v)) != null) {
5656	>	if (result.compareAndSet(null, u))
5657	>	quietlyCompleteRoot();
5658	>	break;
5659		}
5317	–	tryComplete();
5318	–	} catch (Throwable ex) {
5319	–	return tryCompleteComputation(ex);
5660		}
5321	–	return false;
5661		}
5323	–	public final U getRawResult() { return result.get(); }
5662		}
5663
5664		@SuppressWarnings("serial") static final class SearchEntriesTask<K,V,U>
5665	<	extends BulkTask<K,V,U> {
5665	>	extends Traverser<K,V,U> {
5666		final Fun<Entry<K,V>, ? extends U> searchFunction;
5667		final AtomicReference<U> result;
5668		SearchEntriesTask
5669	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5669	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5670		Fun<Entry<K,V>, ? extends U> searchFunction,
5671		AtomicReference<U> result) {
5672		super(m, p, b);
5673		this.searchFunction = searchFunction; this.result = result;
5674		}
5675	<	@SuppressWarnings("unchecked") public final boolean exec() {
5676	<	AtomicReference<U> result = this.result;
5677	<	final Fun<Entry<K,V>, ? extends U> searchFunction =
5678	<	this.searchFunction;
5679	<	if (searchFunction == null \|\| result == null)
5680	<	return abortOnNullFunction();
5681	<	try {
5682	<	int b = batch(), c;
5683	<	while (b > 1 && baseIndex != baseLimit && result.get() == null) {
5684	<	do {} while (!casPending(c = pending, c+1));
5685	<	new SearchEntriesTask<K,V,U>(map, this, b >>>= 1,
5686	<	searchFunction, result).fork();
5687	<	}
5675	>	public final U getRawResult() { return result.get(); }
5676	>	@SuppressWarnings("unchecked") public final void compute() {
5677	>	final Fun<Entry<K,V>, ? extends U> searchFunction;
5678	>	final AtomicReference<U> result;
5679	>	if ((searchFunction = this.searchFunction) == null \|\|
5680	>	(result = this.result) == null)
5681	>	throw new NullPointerException();
5682	>	for (int b;;) {
5683	>	if (result.get() != null)
5684	>	return;
5685	>	if ((b = preSplit()) <= 0)
5686	>	break;
5687	>	new SearchEntriesTask<K,V,U>
5688	>	(map, this, b, searchFunction, result).fork();
5689	>	}
5690	>	while (result.get() == null) {
5691		Object v; U u;
5692	<	while (result.get() == null && (v = advance()) != null) {
5693	<	if ((u = searchFunction.apply(entryFor((K)nextKey, (V)v))) != null) {
5694	<	if (result.compareAndSet(null, u))
5695	<	tryCompleteComputation(null);
5696	<	break;
5697	<	}
5692	>	if ((v = advance()) == null) {
5693	>	propagateCompletion();
5694	>	break;
5695	>	}
5696	>	if ((u = searchFunction.apply(entryFor((K)nextKey, (V)v))) != null) {
5697	>	if (result.compareAndSet(null, u))
5698	>	quietlyCompleteRoot();
5699	>	return;
5700		}
5358	–	tryComplete();
5359	–	} catch (Throwable ex) {
5360	–	return tryCompleteComputation(ex);
5701		}
5362	–	return false;
5702		}
5364	–	public final U getRawResult() { return result.get(); }
5703		}
5704
5705		@SuppressWarnings("serial") static final class SearchMappingsTask<K,V,U>
5706	<	extends BulkTask<K,V,U> {
5706	>	extends Traverser<K,V,U> {
5707		final BiFun<? super K, ? super V, ? extends U> searchFunction;
5708		final AtomicReference<U> result;
5709		SearchMappingsTask
5710	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5710	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5711		BiFun<? super K, ? super V, ? extends U> searchFunction,
5712		AtomicReference<U> result) {
5713		super(m, p, b);
5714		this.searchFunction = searchFunction; this.result = result;
5715		}
5716	<	@SuppressWarnings("unchecked") public final boolean exec() {
5717	<	AtomicReference<U> result = this.result;
5718	<	final BiFun<? super K, ? super V, ? extends U> searchFunction =
5719	<	this.searchFunction;
5720	<	if (searchFunction == null \|\| result == null)
5721	<	return abortOnNullFunction();
5722	<	try {
5723	<	int b = batch(), c;
5724	<	while (b > 1 && baseIndex != baseLimit && result.get() == null) {
5725	<	do {} while (!casPending(c = pending, c+1));
5726	<	new SearchMappingsTask<K,V,U>(map, this, b >>>= 1,
5727	<	searchFunction, result).fork();
5728	<	}
5716	>	public final U getRawResult() { return result.get(); }
5717	>	@SuppressWarnings("unchecked") public final void compute() {
5718	>	final BiFun<? super K, ? super V, ? extends U> searchFunction;
5719	>	final AtomicReference<U> result;
5720	>	if ((searchFunction = this.searchFunction) == null \|\|
5721	>	(result = this.result) == null)
5722	>	throw new NullPointerException();
5723	>	for (int b;;) {
5724	>	if (result.get() != null)
5725	>	return;
5726	>	if ((b = preSplit()) <= 0)
5727	>	break;
5728	>	new SearchMappingsTask<K,V,U>
5729	>	(map, this, b, searchFunction, result).fork();
5730	>	}
5731	>	while (result.get() == null) {
5732		Object v; U u;
5733	<	while (result.get() == null && (v = advance()) != null) {
5734	<	if ((u = searchFunction.apply((K)nextKey, (V)v)) != null) {
5735	<	if (result.compareAndSet(null, u))
5736	<	tryCompleteComputation(null);
5737	<	break;
5738	<	}
5733	>	if ((v = advance()) == null) {
5734	>	propagateCompletion();
5735	>	break;
5736	>	}
5737	>	if ((u = searchFunction.apply((K)nextKey, (V)v)) != null) {
5738	>	if (result.compareAndSet(null, u))
5739	>	quietlyCompleteRoot();
5740	>	break;
5741		}
5399	–	tryComplete();
5400	–	} catch (Throwable ex) {
5401	–	return tryCompleteComputation(ex);
5742		}
5403	–	return false;
5743		}
5405	–	public final U getRawResult() { return result.get(); }
5744		}
5745
5746		@SuppressWarnings("serial") static final class ReduceKeysTask<K,V>
5747	<	extends BulkTask<K,V,K> {
5747	>	extends Traverser<K,V,K> {
5748		final BiFun<? super K, ? super K, ? extends K> reducer;
5749		K result;
5750		ReduceKeysTask<K,V> rights, nextRight;
5751		ReduceKeysTask
5752	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5752	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5753		ReduceKeysTask<K,V> nextRight,
5754		BiFun<? super K, ? super K, ? extends K> reducer) {
5755		super(m, p, b); this.nextRight = nextRight;
5756		this.reducer = reducer;
5757		}
5758	<	@SuppressWarnings("unchecked") public final boolean exec() {
5758	>	public final K getRawResult() { return result; }
5759	>	@SuppressWarnings("unchecked") public final void compute() {
5760		final BiFun<? super K, ? super K, ? extends K> reducer =
5761		this.reducer;
5762		if (reducer == null)
5763	<	return abortOnNullFunction();
5764	<	try {
5765	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5766	<	do {} while (!casPending(c = pending, c+1));
5767	<	(rights = new ReduceKeysTask<K,V>
5768	<	(map, this, b >>>= 1, rights, reducer)).fork();
5769	<	}
5770	<	K r = null;
5771	<	while (advance() != null) {
5772	<	K u = (K)nextKey;
5773	<	r = (r == null) ? u : reducer.apply(r, u);
5774	<	}
5775	<	result = r;
5776	<	for (ReduceKeysTask<K,V> t = this, s;;) {
5777	<	int c; BulkTask<K,V,?> par; K tr, sr;
5778	<	if ((c = t.pending) == 0) {
5779	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5780	<	if ((sr = s.result) != null)
5781	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
5782	<	}
5783	<	if ((par = t.parent) == null \|\|
5445	<	!(par instanceof ReduceKeysTask)) {
5446	<	t.quietlyComplete();
5447	<	break;
5448	<	}
5449	<	t = (ReduceKeysTask<K,V>)par;
5450	<	}
5451	<	else if (t.casPending(c, c - 1))
5452	<	break;
5763	>	throw new NullPointerException();
5764	>	for (int b; (b = preSplit()) > 0;)
5765	>	(rights = new ReduceKeysTask<K,V>
5766	>	(map, this, b, rights, reducer)).fork();
5767	>	K r = null;
5768	>	while (advance() != null) {
5769	>	K u = (K)nextKey;
5770	>	r = (r == null) ? u : reducer.apply(r, u);
5771	>	}
5772	>	result = r;
5773	>	CountedCompleter<?> c;
5774	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
5775	>	ReduceKeysTask<K,V>
5776	>	t = (ReduceKeysTask<K,V>)c,
5777	>	s = t.rights;
5778	>	while (s != null) {
5779	>	K tr, sr;
5780	>	if ((sr = s.result) != null)
5781	>	t.result = (((tr = t.result) == null) ? sr :
5782	>	reducer.apply(tr, sr));
5783	>	s = t.rights = s.nextRight;
5784		}
5454	–	} catch (Throwable ex) {
5455	–	return tryCompleteComputation(ex);
5785		}
5457	–	return false;
5786		}
5459	–	public final K getRawResult() { return result; }
5787		}
5788
5789		@SuppressWarnings("serial") static final class ReduceValuesTask<K,V>
5790	<	extends BulkTask<K,V,V> {
5790	>	extends Traverser<K,V,V> {
5791		final BiFun<? super V, ? super V, ? extends V> reducer;
5792		V result;
5793		ReduceValuesTask<K,V> rights, nextRight;
5794		ReduceValuesTask
5795	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5795	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5796		ReduceValuesTask<K,V> nextRight,
5797		BiFun<? super V, ? super V, ? extends V> reducer) {
5798		super(m, p, b); this.nextRight = nextRight;
5799		this.reducer = reducer;
5800		}
5801	<	@SuppressWarnings("unchecked") public final boolean exec() {
5801	>	public final V getRawResult() { return result; }
5802	>	@SuppressWarnings("unchecked") public final void compute() {
5803		final BiFun<? super V, ? super V, ? extends V> reducer =
5804		this.reducer;
5805		if (reducer == null)
5806	<	return abortOnNullFunction();
5807	<	try {
5808	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5809	<	do {} while (!casPending(c = pending, c+1));
5810	<	(rights = new ReduceValuesTask<K,V>
5811	<	(map, this, b >>>= 1, rights, reducer)).fork();
5812	<	}
5813	<	V r = null;
5814	<	Object v;
5815	<	while ((v = advance()) != null) {
5816	<	V u = (V)v;
5817	<	r = (r == null) ? u : reducer.apply(r, u);
5818	<	}
5819	<	result = r;
5820	<	for (ReduceValuesTask<K,V> t = this, s;;) {
5821	<	int c; BulkTask<K,V,?> par; V tr, sr;
5822	<	if ((c = t.pending) == 0) {
5823	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5824	<	if ((sr = s.result) != null)
5825	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
5826	<	}
5827	<	if ((par = t.parent) == null \|\|
5500	<	!(par instanceof ReduceValuesTask)) {
5501	<	t.quietlyComplete();
5502	<	break;
5503	<	}
5504	<	t = (ReduceValuesTask<K,V>)par;
5505	<	}
5506	<	else if (t.casPending(c, c - 1))
5507	<	break;
5806	>	throw new NullPointerException();
5807	>	for (int b; (b = preSplit()) > 0;)
5808	>	(rights = new ReduceValuesTask<K,V>
5809	>	(map, this, b, rights, reducer)).fork();
5810	>	V r = null;
5811	>	Object v;
5812	>	while ((v = advance()) != null) {
5813	>	V u = (V)v;
5814	>	r = (r == null) ? u : reducer.apply(r, u);
5815	>	}
5816	>	result = r;
5817	>	CountedCompleter<?> c;
5818	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
5819	>	ReduceValuesTask<K,V>
5820	>	t = (ReduceValuesTask<K,V>)c,
5821	>	s = t.rights;
5822	>	while (s != null) {
5823	>	V tr, sr;
5824	>	if ((sr = s.result) != null)
5825	>	t.result = (((tr = t.result) == null) ? sr :
5826	>	reducer.apply(tr, sr));
5827	>	s = t.rights = s.nextRight;
5828		}
5509	–	} catch (Throwable ex) {
5510	–	return tryCompleteComputation(ex);
5829		}
5512	–	return false;
5830		}
5514	–	public final V getRawResult() { return result; }
5831		}
5832
5833		@SuppressWarnings("serial") static final class ReduceEntriesTask<K,V>
5834	<	extends BulkTask<K,V,Map.Entry<K,V>> {
5834	>	extends Traverser<K,V,Map.Entry<K,V>> {
5835		final BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer;
5836		Map.Entry<K,V> result;
5837		ReduceEntriesTask<K,V> rights, nextRight;
5838		ReduceEntriesTask
5839	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5839	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5840		ReduceEntriesTask<K,V> nextRight,
5841		BiFun<Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) {
5842		super(m, p, b); this.nextRight = nextRight;
5843		this.reducer = reducer;
5844		}
5845	<	@SuppressWarnings("unchecked") public final boolean exec() {
5845	>	public final Map.Entry<K,V> getRawResult() { return result; }
5846	>	@SuppressWarnings("unchecked") public final void compute() {
5847		final BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer =
5848		this.reducer;
5849		if (reducer == null)
5850	<	return abortOnNullFunction();
5851	<	try {
5852	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5853	<	do {} while (!casPending(c = pending, c+1));
5854	<	(rights = new ReduceEntriesTask<K,V>
5855	<	(map, this, b >>>= 1, rights, reducer)).fork();
5856	<	}
5857	<	Map.Entry<K,V> r = null;
5858	<	Object v;
5859	<	while ((v = advance()) != null) {
5860	<	Map.Entry<K,V> u = entryFor((K)nextKey, (V)v);
5861	<	r = (r == null) ? u : reducer.apply(r, u);
5862	<	}
5863	<	result = r;
5864	<	for (ReduceEntriesTask<K,V> t = this, s;;) {
5865	<	int c; BulkTask<K,V,?> par; Map.Entry<K,V> tr, sr;
5866	<	if ((c = t.pending) == 0) {
5867	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5868	<	if ((sr = s.result) != null)
5869	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
5870	<	}
5871	<	if ((par = t.parent) == null \|\|
5555	<	!(par instanceof ReduceEntriesTask)) {
5556	<	t.quietlyComplete();
5557	<	break;
5558	<	}
5559	<	t = (ReduceEntriesTask<K,V>)par;
5560	<	}
5561	<	else if (t.casPending(c, c - 1))
5562	<	break;
5850	>	throw new NullPointerException();
5851	>	for (int b; (b = preSplit()) > 0;)
5852	>	(rights = new ReduceEntriesTask<K,V>
5853	>	(map, this, b, rights, reducer)).fork();
5854	>	Map.Entry<K,V> r = null;
5855	>	Object v;
5856	>	while ((v = advance()) != null) {
5857	>	Map.Entry<K,V> u = entryFor((K)nextKey, (V)v);
5858	>	r = (r == null) ? u : reducer.apply(r, u);
5859	>	}
5860	>	result = r;
5861	>	CountedCompleter<?> c;
5862	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
5863	>	ReduceEntriesTask<K,V>
5864	>	t = (ReduceEntriesTask<K,V>)c,
5865	>	s = t.rights;
5866	>	while (s != null) {
5867	>	Map.Entry<K,V> tr, sr;
5868	>	if ((sr = s.result) != null)
5869	>	t.result = (((tr = t.result) == null) ? sr :
5870	>	reducer.apply(tr, sr));
5871	>	s = t.rights = s.nextRight;
5872		}
5564	–	} catch (Throwable ex) {
5565	–	return tryCompleteComputation(ex);
5873		}
5567	–	return false;
5874		}
5569	–	public final Map.Entry<K,V> getRawResult() { return result; }
5875		}
5876
5877		@SuppressWarnings("serial") static final class MapReduceKeysTask<K,V,U>
5878	<	extends BulkTask<K,V,U> {
5878	>	extends Traverser<K,V,U> {
5879		final Fun<? super K, ? extends U> transformer;
5880		final BiFun<? super U, ? super U, ? extends U> reducer;
5881		U result;
5882		MapReduceKeysTask<K,V,U> rights, nextRight;
5883		MapReduceKeysTask
5884	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5884	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5885		MapReduceKeysTask<K,V,U> nextRight,
5886		Fun<? super K, ? extends U> transformer,
5887		BiFun<? super U, ? super U, ? extends U> reducer) {
#	Line 5584 \| Line 5889 \| public class ConcurrentHashMapV8<K, V>
5889		this.transformer = transformer;
5890		this.reducer = reducer;
5891		}
5892	<	@SuppressWarnings("unchecked") public final boolean exec() {
5892	>	public final U getRawResult() { return result; }
5893	>	@SuppressWarnings("unchecked") public final void compute() {
5894		final Fun<? super K, ? extends U> transformer =
5895		this.transformer;
5896		final BiFun<? super U, ? super U, ? extends U> reducer =
5897		this.reducer;
5898		if (transformer == null \|\| reducer == null)
5899	<	return abortOnNullFunction();
5900	<	try {
5901	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5902	<	do {} while (!casPending(c = pending, c+1));
5903	<	(rights = new MapReduceKeysTask<K,V,U>
5904	<	(map, this, b >>>= 1, rights, transformer, reducer)).fork();
5905	<	}
5906	<	U r = null, u;
5907	<	while (advance() != null) {
5908	<	if ((u = transformer.apply((K)nextKey)) != null)
5909	<	r = (r == null) ? u : reducer.apply(r, u);
5910	<	}
5911	<	result = r;
5912	<	for (MapReduceKeysTask<K,V,U> t = this, s;;) {
5913	<	int c; BulkTask<K,V,?> par; U tr, sr;
5914	<	if ((c = t.pending) == 0) {
5915	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5916	<	if ((sr = s.result) != null)
5917	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
5918	<	}
5919	<	if ((par = t.parent) == null \|\|
5614	<	!(par instanceof MapReduceKeysTask)) {
5615	<	t.quietlyComplete();
5616	<	break;
5617	<	}
5618	<	t = (MapReduceKeysTask<K,V,U>)par;
5619	<	}
5620	<	else if (t.casPending(c, c - 1))
5621	<	break;
5899	>	throw new NullPointerException();
5900	>	for (int b; (b = preSplit()) > 0;)
5901	>	(rights = new MapReduceKeysTask<K,V,U>
5902	>	(map, this, b, rights, transformer, reducer)).fork();
5903	>	U r = null, u;
5904	>	while (advance() != null) {
5905	>	if ((u = transformer.apply((K)nextKey)) != null)
5906	>	r = (r == null) ? u : reducer.apply(r, u);
5907	>	}
5908	>	result = r;
5909	>	CountedCompleter<?> c;
5910	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
5911	>	MapReduceKeysTask<K,V,U>
5912	>	t = (MapReduceKeysTask<K,V,U>)c,
5913	>	s = t.rights;
5914	>	while (s != null) {
5915	>	U tr, sr;
5916	>	if ((sr = s.result) != null)
5917	>	t.result = (((tr = t.result) == null) ? sr :
5918	>	reducer.apply(tr, sr));
5919	>	s = t.rights = s.nextRight;
5920		}
5623	–	} catch (Throwable ex) {
5624	–	return tryCompleteComputation(ex);
5921		}
5626	–	return false;
5922		}
5628	–	public final U getRawResult() { return result; }
5923		}
5924
5925		@SuppressWarnings("serial") static final class MapReduceValuesTask<K,V,U>
5926	<	extends BulkTask<K,V,U> {
5926	>	extends Traverser<K,V,U> {
5927		final Fun<? super V, ? extends U> transformer;
5928		final BiFun<? super U, ? super U, ? extends U> reducer;
5929		U result;
5930		MapReduceValuesTask<K,V,U> rights, nextRight;
5931		MapReduceValuesTask
5932	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5932	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5933		MapReduceValuesTask<K,V,U> nextRight,
5934		Fun<? super V, ? extends U> transformer,
5935		BiFun<? super U, ? super U, ? extends U> reducer) {
#	Line 5643 \| Line 5937 \| public class ConcurrentHashMapV8<K, V>
5937		this.transformer = transformer;
5938		this.reducer = reducer;
5939		}
5940	<	@SuppressWarnings("unchecked") public final boolean exec() {
5940	>	public final U getRawResult() { return result; }
5941	>	@SuppressWarnings("unchecked") public final void compute() {
5942		final Fun<? super V, ? extends U> transformer =
5943		this.transformer;
5944		final BiFun<? super U, ? super U, ? extends U> reducer =
5945		this.reducer;
5946		if (transformer == null \|\| reducer == null)
5947	<	return abortOnNullFunction();
5948	<	try {
5949	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5950	<	do {} while (!casPending(c = pending, c+1));
5951	<	(rights = new MapReduceValuesTask<K,V,U>
5952	<	(map, this, b >>>= 1, rights, transformer, reducer)).fork();
5953	<	}
5954	<	U r = null, u;
5955	<	Object v;
5956	<	while ((v = advance()) != null) {
5957	<	if ((u = transformer.apply((V)v)) != null)
5958	<	r = (r == null) ? u : reducer.apply(r, u);
5959	<	}
5960	<	result = r;
5961	<	for (MapReduceValuesTask<K,V,U> t = this, s;;) {
5962	<	int c; BulkTask<K,V,?> par; U tr, sr;
5963	<	if ((c = t.pending) == 0) {
5964	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5965	<	if ((sr = s.result) != null)
5966	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
5967	<	}
5968	<	if ((par = t.parent) == null \|\|
5674	<	!(par instanceof MapReduceValuesTask)) {
5675	<	t.quietlyComplete();
5676	<	break;
5677	<	}
5678	<	t = (MapReduceValuesTask<K,V,U>)par;
5679	<	}
5680	<	else if (t.casPending(c, c - 1))
5681	<	break;
5947	>	throw new NullPointerException();
5948	>	for (int b; (b = preSplit()) > 0;)
5949	>	(rights = new MapReduceValuesTask<K,V,U>
5950	>	(map, this, b, rights, transformer, reducer)).fork();
5951	>	U r = null, u;
5952	>	Object v;
5953	>	while ((v = advance()) != null) {
5954	>	if ((u = transformer.apply((V)v)) != null)
5955	>	r = (r == null) ? u : reducer.apply(r, u);
5956	>	}
5957	>	result = r;
5958	>	CountedCompleter<?> c;
5959	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
5960	>	MapReduceValuesTask<K,V,U>
5961	>	t = (MapReduceValuesTask<K,V,U>)c,
5962	>	s = t.rights;
5963	>	while (s != null) {
5964	>	U tr, sr;
5965	>	if ((sr = s.result) != null)
5966	>	t.result = (((tr = t.result) == null) ? sr :
5967	>	reducer.apply(tr, sr));
5968	>	s = t.rights = s.nextRight;
5969		}
5683	–	} catch (Throwable ex) {
5684	–	return tryCompleteComputation(ex);
5970		}
5686	–	return false;
5971		}
5688	–	public final U getRawResult() { return result; }
5972		}
5973
5974		@SuppressWarnings("serial") static final class MapReduceEntriesTask<K,V,U>
5975	<	extends BulkTask<K,V,U> {
5975	>	extends Traverser<K,V,U> {
5976		final Fun<Map.Entry<K,V>, ? extends U> transformer;
5977		final BiFun<? super U, ? super U, ? extends U> reducer;
5978		U result;
5979		MapReduceEntriesTask<K,V,U> rights, nextRight;
5980		MapReduceEntriesTask
5981	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
5981	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
5982		MapReduceEntriesTask<K,V,U> nextRight,
5983		Fun<Map.Entry<K,V>, ? extends U> transformer,
5984		BiFun<? super U, ? super U, ? extends U> reducer) {
#	Line 5703 \| Line 5986 \| public class ConcurrentHashMapV8<K, V>
5986		this.transformer = transformer;
5987		this.reducer = reducer;
5988		}
5989	<	@SuppressWarnings("unchecked") public final boolean exec() {
5989	>	public final U getRawResult() { return result; }
5990	>	@SuppressWarnings("unchecked") public final void compute() {
5991		final Fun<Map.Entry<K,V>, ? extends U> transformer =
5992		this.transformer;
5993		final BiFun<? super U, ? super U, ? extends U> reducer =
5994		this.reducer;
5995		if (transformer == null \|\| reducer == null)
5996	<	return abortOnNullFunction();
5997	<	try {
5998	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
5999	<	do {} while (!casPending(c = pending, c+1));
6000	<	(rights = new MapReduceEntriesTask<K,V,U>
6001	<	(map, this, b >>>= 1, rights, transformer, reducer)).fork();
6002	<	}
6003	<	U r = null, u;
6004	<	Object v;
6005	<	while ((v = advance()) != null) {
6006	<	if ((u = transformer.apply(entryFor((K)nextKey, (V)v))) != null)
6007	<	r = (r == null) ? u : reducer.apply(r, u);
6008	<	}
6009	<	result = r;
6010	<	for (MapReduceEntriesTask<K,V,U> t = this, s;;) {
6011	<	int c; BulkTask<K,V,?> par; U tr, sr;
6012	<	if ((c = t.pending) == 0) {
6013	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6014	<	if ((sr = s.result) != null)
6015	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
6016	<	}
6017	<	if ((par = t.parent) == null \|\|
5734	<	!(par instanceof MapReduceEntriesTask)) {
5735	<	t.quietlyComplete();
5736	<	break;
5737	<	}
5738	<	t = (MapReduceEntriesTask<K,V,U>)par;
5739	<	}
5740	<	else if (t.casPending(c, c - 1))
5741	<	break;
5996	>	throw new NullPointerException();
5997	>	for (int b; (b = preSplit()) > 0;)
5998	>	(rights = new MapReduceEntriesTask<K,V,U>
5999	>	(map, this, b, rights, transformer, reducer)).fork();
6000	>	U r = null, u;
6001	>	Object v;
6002	>	while ((v = advance()) != null) {
6003	>	if ((u = transformer.apply(entryFor((K)nextKey, (V)v))) != null)
6004	>	r = (r == null) ? u : reducer.apply(r, u);
6005	>	}
6006	>	result = r;
6007	>	CountedCompleter<?> c;
6008	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6009	>	MapReduceEntriesTask<K,V,U>
6010	>	t = (MapReduceEntriesTask<K,V,U>)c,
6011	>	s = t.rights;
6012	>	while (s != null) {
6013	>	U tr, sr;
6014	>	if ((sr = s.result) != null)
6015	>	t.result = (((tr = t.result) == null) ? sr :
6016	>	reducer.apply(tr, sr));
6017	>	s = t.rights = s.nextRight;
6018		}
5743	–	} catch (Throwable ex) {
5744	–	return tryCompleteComputation(ex);
6019		}
5746	–	return false;
6020		}
5748	–	public final U getRawResult() { return result; }
6021		}
6022
6023		@SuppressWarnings("serial") static final class MapReduceMappingsTask<K,V,U>
6024	<	extends BulkTask<K,V,U> {
6024	>	extends Traverser<K,V,U> {
6025		final BiFun<? super K, ? super V, ? extends U> transformer;
6026		final BiFun<? super U, ? super U, ? extends U> reducer;
6027		U result;
6028		MapReduceMappingsTask<K,V,U> rights, nextRight;
6029		MapReduceMappingsTask
6030	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6030	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6031		MapReduceMappingsTask<K,V,U> nextRight,
6032		BiFun<? super K, ? super V, ? extends U> transformer,
6033		BiFun<? super U, ? super U, ? extends U> reducer) {
#	Line 5763 \| Line 6035 \| public class ConcurrentHashMapV8<K, V>
6035		this.transformer = transformer;
6036		this.reducer = reducer;
6037		}
6038	<	@SuppressWarnings("unchecked") public final boolean exec() {
6038	>	public final U getRawResult() { return result; }
6039	>	@SuppressWarnings("unchecked") public final void compute() {
6040		final BiFun<? super K, ? super V, ? extends U> transformer =
6041		this.transformer;
6042		final BiFun<? super U, ? super U, ? extends U> reducer =
6043		this.reducer;
6044		if (transformer == null \|\| reducer == null)
6045	<	return abortOnNullFunction();
6046	<	try {
6047	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6048	<	do {} while (!casPending(c = pending, c+1));
6049	<	(rights = new MapReduceMappingsTask<K,V,U>
6050	<	(map, this, b >>>= 1, rights, transformer, reducer)).fork();
6051	<	}
6052	<	U r = null, u;
6053	<	Object v;
6054	<	while ((v = advance()) != null) {
6055	<	if ((u = transformer.apply((K)nextKey, (V)v)) != null)
6056	<	r = (r == null) ? u : reducer.apply(r, u);
6057	<	}
6058	<	result = r;
6059	<	for (MapReduceMappingsTask<K,V,U> t = this, s;;) {
6060	<	int c; BulkTask<K,V,?> par; U tr, sr;
6061	<	if ((c = t.pending) == 0) {
6062	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6063	<	if ((sr = s.result) != null)
6064	<	t.result = ((tr = t.result) == null) ? sr : reducer.apply(tr, sr);
6065	<	}
6066	<	if ((par = t.parent) == null \|\|
5794	<	!(par instanceof MapReduceMappingsTask)) {
5795	<	t.quietlyComplete();
5796	<	break;
5797	<	}
5798	<	t = (MapReduceMappingsTask<K,V,U>)par;
5799	<	}
5800	<	else if (t.casPending(c, c - 1))
5801	<	break;
6045	>	throw new NullPointerException();
6046	>	for (int b; (b = preSplit()) > 0;)
6047	>	(rights = new MapReduceMappingsTask<K,V,U>
6048	>	(map, this, b, rights, transformer, reducer)).fork();
6049	>	U r = null, u;
6050	>	Object v;
6051	>	while ((v = advance()) != null) {
6052	>	if ((u = transformer.apply((K)nextKey, (V)v)) != null)
6053	>	r = (r == null) ? u : reducer.apply(r, u);
6054	>	}
6055	>	result = r;
6056	>	CountedCompleter<?> c;
6057	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6058	>	MapReduceMappingsTask<K,V,U>
6059	>	t = (MapReduceMappingsTask<K,V,U>)c,
6060	>	s = t.rights;
6061	>	while (s != null) {
6062	>	U tr, sr;
6063	>	if ((sr = s.result) != null)
6064	>	t.result = (((tr = t.result) == null) ? sr :
6065	>	reducer.apply(tr, sr));
6066	>	s = t.rights = s.nextRight;
6067		}
5803	–	} catch (Throwable ex) {
5804	–	return tryCompleteComputation(ex);
6068		}
5806	–	return false;
6069		}
5808	–	public final U getRawResult() { return result; }
6070		}
6071
6072		@SuppressWarnings("serial") static final class MapReduceKeysToDoubleTask<K,V>
6073	<	extends BulkTask<K,V,Double> {
6073	>	extends Traverser<K,V,Double> {
6074		final ObjectToDouble<? super K> transformer;
6075		final DoubleByDoubleToDouble reducer;
6076		final double basis;
6077		double result;
6078		MapReduceKeysToDoubleTask<K,V> rights, nextRight;
6079		MapReduceKeysToDoubleTask
6080	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6080	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6081		MapReduceKeysToDoubleTask<K,V> nextRight,
6082		ObjectToDouble<? super K> transformer,
6083		double basis,
#	Line 5825 \| Line 6086 \| public class ConcurrentHashMapV8<K, V>
6086		this.transformer = transformer;
6087		this.basis = basis; this.reducer = reducer;
6088		}
6089	<	@SuppressWarnings("unchecked") public final boolean exec() {
6089	>	public final Double getRawResult() { return result; }
6090	>	@SuppressWarnings("unchecked") public final void compute() {
6091		final ObjectToDouble<? super K> transformer =
6092		this.transformer;
6093		final DoubleByDoubleToDouble reducer = this.reducer;
6094		if (transformer == null \|\| reducer == null)
6095	<	return abortOnNullFunction();
6096	<	try {
6097	<	final double id = this.basis;
6098	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6099	<	do {} while (!casPending(c = pending, c+1));
6100	<	(rights = new MapReduceKeysToDoubleTask<K,V>
6101	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6102	<	}
6103	<	double r = id;
6104	<	while (advance() != null)
6105	<	r = reducer.apply(r, transformer.apply((K)nextKey));
6106	<	result = r;
6107	<	for (MapReduceKeysToDoubleTask<K,V> t = this, s;;) {
6108	<	int c; BulkTask<K,V,?> par;
6109	<	if ((c = t.pending) == 0) {
6110	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5849	<	t.result = reducer.apply(t.result, s.result);
5850	<	}
5851	<	if ((par = t.parent) == null \|\|
5852	<	!(par instanceof MapReduceKeysToDoubleTask)) {
5853	<	t.quietlyComplete();
5854	<	break;
5855	<	}
5856	<	t = (MapReduceKeysToDoubleTask<K,V>)par;
5857	<	}
5858	<	else if (t.casPending(c, c - 1))
5859	<	break;
6095	>	throw new NullPointerException();
6096	>	double r = this.basis;
6097	>	for (int b; (b = preSplit()) > 0;)
6098	>	(rights = new MapReduceKeysToDoubleTask<K,V>
6099	>	(map, this, b, rights, transformer, r, reducer)).fork();
6100	>	while (advance() != null)
6101	>	r = reducer.apply(r, transformer.apply((K)nextKey));
6102	>	result = r;
6103	>	CountedCompleter<?> c;
6104	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6105	>	MapReduceKeysToDoubleTask<K,V>
6106	>	t = (MapReduceKeysToDoubleTask<K,V>)c,
6107	>	s = t.rights;
6108	>	while (s != null) {
6109	>	t.result = reducer.apply(t.result, s.result);
6110	>	s = t.rights = s.nextRight;
6111		}
5861	–	} catch (Throwable ex) {
5862	–	return tryCompleteComputation(ex);
6112		}
5864	–	return false;
6113		}
5866	–	public final Double getRawResult() { return result; }
6114		}
6115
6116		@SuppressWarnings("serial") static final class MapReduceValuesToDoubleTask<K,V>
6117	<	extends BulkTask<K,V,Double> {
6117	>	extends Traverser<K,V,Double> {
6118		final ObjectToDouble<? super V> transformer;
6119		final DoubleByDoubleToDouble reducer;
6120		final double basis;
6121		double result;
6122		MapReduceValuesToDoubleTask<K,V> rights, nextRight;
6123		MapReduceValuesToDoubleTask
6124	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6124	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6125		MapReduceValuesToDoubleTask<K,V> nextRight,
6126		ObjectToDouble<? super V> transformer,
6127		double basis,
#	Line 5883 \| Line 6130 \| public class ConcurrentHashMapV8<K, V>
6130		this.transformer = transformer;
6131		this.basis = basis; this.reducer = reducer;
6132		}
6133	<	@SuppressWarnings("unchecked") public final boolean exec() {
6133	>	public final Double getRawResult() { return result; }
6134	>	@SuppressWarnings("unchecked") public final void compute() {
6135		final ObjectToDouble<? super V> transformer =
6136		this.transformer;
6137		final DoubleByDoubleToDouble reducer = this.reducer;
6138		if (transformer == null \|\| reducer == null)
6139	<	return abortOnNullFunction();
6140	<	try {
6141	<	final double id = this.basis;
6142	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6143	<	do {} while (!casPending(c = pending, c+1));
6144	<	(rights = new MapReduceValuesToDoubleTask<K,V>
6145	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6146	<	}
6147	<	double r = id;
6148	<	Object v;
6149	<	while ((v = advance()) != null)
6150	<	r = reducer.apply(r, transformer.apply((V)v));
6151	<	result = r;
6152	<	for (MapReduceValuesToDoubleTask<K,V> t = this, s;;) {
6153	<	int c; BulkTask<K,V,?> par;
6154	<	if ((c = t.pending) == 0) {
6155	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5908	<	t.result = reducer.apply(t.result, s.result);
5909	<	}
5910	<	if ((par = t.parent) == null \|\|
5911	<	!(par instanceof MapReduceValuesToDoubleTask)) {
5912	<	t.quietlyComplete();
5913	<	break;
5914	<	}
5915	<	t = (MapReduceValuesToDoubleTask<K,V>)par;
5916	<	}
5917	<	else if (t.casPending(c, c - 1))
5918	<	break;
6139	>	throw new NullPointerException();
6140	>	double r = this.basis;
6141	>	for (int b; (b = preSplit()) > 0;)
6142	>	(rights = new MapReduceValuesToDoubleTask<K,V>
6143	>	(map, this, b, rights, transformer, r, reducer)).fork();
6144	>	Object v;
6145	>	while ((v = advance()) != null)
6146	>	r = reducer.apply(r, transformer.apply((V)v));
6147	>	result = r;
6148	>	CountedCompleter<?> c;
6149	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6150	>	MapReduceValuesToDoubleTask<K,V>
6151	>	t = (MapReduceValuesToDoubleTask<K,V>)c,
6152	>	s = t.rights;
6153	>	while (s != null) {
6154	>	t.result = reducer.apply(t.result, s.result);
6155	>	s = t.rights = s.nextRight;
6156		}
5920	–	} catch (Throwable ex) {
5921	–	return tryCompleteComputation(ex);
6157		}
5923	–	return false;
6158		}
5925	–	public final Double getRawResult() { return result; }
6159		}
6160
6161		@SuppressWarnings("serial") static final class MapReduceEntriesToDoubleTask<K,V>
6162	<	extends BulkTask<K,V,Double> {
6162	>	extends Traverser<K,V,Double> {
6163		final ObjectToDouble<Map.Entry<K,V>> transformer;
6164		final DoubleByDoubleToDouble reducer;
6165		final double basis;
6166		double result;
6167		MapReduceEntriesToDoubleTask<K,V> rights, nextRight;
6168		MapReduceEntriesToDoubleTask
6169	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6169	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6170		MapReduceEntriesToDoubleTask<K,V> nextRight,
6171		ObjectToDouble<Map.Entry<K,V>> transformer,
6172		double basis,
#	Line 5942 \| Line 6175 \| public class ConcurrentHashMapV8<K, V>
6175		this.transformer = transformer;
6176		this.basis = basis; this.reducer = reducer;
6177		}
6178	<	@SuppressWarnings("unchecked") public final boolean exec() {
6178	>	public final Double getRawResult() { return result; }
6179	>	@SuppressWarnings("unchecked") public final void compute() {
6180		final ObjectToDouble<Map.Entry<K,V>> transformer =
6181		this.transformer;
6182		final DoubleByDoubleToDouble reducer = this.reducer;
6183		if (transformer == null \|\| reducer == null)
6184	<	return abortOnNullFunction();
6185	<	try {
6186	<	final double id = this.basis;
6187	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6188	<	do {} while (!casPending(c = pending, c+1));
6189	<	(rights = new MapReduceEntriesToDoubleTask<K,V>
6190	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6191	<	}
6192	<	double r = id;
6193	<	Object v;
6194	<	while ((v = advance()) != null)
6195	<	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6196	<	result = r;
6197	<	for (MapReduceEntriesToDoubleTask<K,V> t = this, s;;) {
6198	<	int c; BulkTask<K,V,?> par;
6199	<	if ((c = t.pending) == 0) {
6200	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
5967	<	t.result = reducer.apply(t.result, s.result);
5968	<	}
5969	<	if ((par = t.parent) == null \|\|
5970	<	!(par instanceof MapReduceEntriesToDoubleTask)) {
5971	<	t.quietlyComplete();
5972	<	break;
5973	<	}
5974	<	t = (MapReduceEntriesToDoubleTask<K,V>)par;
5975	<	}
5976	<	else if (t.casPending(c, c - 1))
5977	<	break;
6184	>	throw new NullPointerException();
6185	>	double r = this.basis;
6186	>	for (int b; (b = preSplit()) > 0;)
6187	>	(rights = new MapReduceEntriesToDoubleTask<K,V>
6188	>	(map, this, b, rights, transformer, r, reducer)).fork();
6189	>	Object v;
6190	>	while ((v = advance()) != null)
6191	>	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6192	>	result = r;
6193	>	CountedCompleter<?> c;
6194	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6195	>	MapReduceEntriesToDoubleTask<K,V>
6196	>	t = (MapReduceEntriesToDoubleTask<K,V>)c,
6197	>	s = t.rights;
6198	>	while (s != null) {
6199	>	t.result = reducer.apply(t.result, s.result);
6200	>	s = t.rights = s.nextRight;
6201		}
5979	–	} catch (Throwable ex) {
5980	–	return tryCompleteComputation(ex);
6202		}
5982	–	return false;
6203		}
5984	–	public final Double getRawResult() { return result; }
6204		}
6205
6206		@SuppressWarnings("serial") static final class MapReduceMappingsToDoubleTask<K,V>
6207	<	extends BulkTask<K,V,Double> {
6207	>	extends Traverser<K,V,Double> {
6208		final ObjectByObjectToDouble<? super K, ? super V> transformer;
6209		final DoubleByDoubleToDouble reducer;
6210		final double basis;
6211		double result;
6212		MapReduceMappingsToDoubleTask<K,V> rights, nextRight;
6213		MapReduceMappingsToDoubleTask
6214	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6214	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6215		MapReduceMappingsToDoubleTask<K,V> nextRight,
6216		ObjectByObjectToDouble<? super K, ? super V> transformer,
6217		double basis,
#	Line 6001 \| Line 6220 \| public class ConcurrentHashMapV8<K, V>
6220		this.transformer = transformer;
6221		this.basis = basis; this.reducer = reducer;
6222		}
6223	<	@SuppressWarnings("unchecked") public final boolean exec() {
6223	>	public final Double getRawResult() { return result; }
6224	>	@SuppressWarnings("unchecked") public final void compute() {
6225		final ObjectByObjectToDouble<? super K, ? super V> transformer =
6226		this.transformer;
6227		final DoubleByDoubleToDouble reducer = this.reducer;
6228		if (transformer == null \|\| reducer == null)
6229	<	return abortOnNullFunction();
6230	<	try {
6231	<	final double id = this.basis;
6232	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6233	<	do {} while (!casPending(c = pending, c+1));
6234	<	(rights = new MapReduceMappingsToDoubleTask<K,V>
6235	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6236	<	}
6237	<	double r = id;
6238	<	Object v;
6239	<	while ((v = advance()) != null)
6240	<	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6241	<	result = r;
6242	<	for (MapReduceMappingsToDoubleTask<K,V> t = this, s;;) {
6243	<	int c; BulkTask<K,V,?> par;
6244	<	if ((c = t.pending) == 0) {
6245	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6026	<	t.result = reducer.apply(t.result, s.result);
6027	<	}
6028	<	if ((par = t.parent) == null \|\|
6029	<	!(par instanceof MapReduceMappingsToDoubleTask)) {
6030	<	t.quietlyComplete();
6031	<	break;
6032	<	}
6033	<	t = (MapReduceMappingsToDoubleTask<K,V>)par;
6034	<	}
6035	<	else if (t.casPending(c, c - 1))
6036	<	break;
6229	>	throw new NullPointerException();
6230	>	double r = this.basis;
6231	>	for (int b; (b = preSplit()) > 0;)
6232	>	(rights = new MapReduceMappingsToDoubleTask<K,V>
6233	>	(map, this, b, rights, transformer, r, reducer)).fork();
6234	>	Object v;
6235	>	while ((v = advance()) != null)
6236	>	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6237	>	result = r;
6238	>	CountedCompleter<?> c;
6239	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6240	>	MapReduceMappingsToDoubleTask<K,V>
6241	>	t = (MapReduceMappingsToDoubleTask<K,V>)c,
6242	>	s = t.rights;
6243	>	while (s != null) {
6244	>	t.result = reducer.apply(t.result, s.result);
6245	>	s = t.rights = s.nextRight;
6246		}
6038	–	} catch (Throwable ex) {
6039	–	return tryCompleteComputation(ex);
6247		}
6041	–	return false;
6248		}
6043	–	public final Double getRawResult() { return result; }
6249		}
6250
6251		@SuppressWarnings("serial") static final class MapReduceKeysToLongTask<K,V>
6252	<	extends BulkTask<K,V,Long> {
6252	>	extends Traverser<K,V,Long> {
6253		final ObjectToLong<? super K> transformer;
6254		final LongByLongToLong reducer;
6255		final long basis;
6256		long result;
6257		MapReduceKeysToLongTask<K,V> rights, nextRight;
6258		MapReduceKeysToLongTask
6259	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6259	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6260		MapReduceKeysToLongTask<K,V> nextRight,
6261		ObjectToLong<? super K> transformer,
6262		long basis,
#	Line 6060 \| Line 6265 \| public class ConcurrentHashMapV8<K, V>
6265		this.transformer = transformer;
6266		this.basis = basis; this.reducer = reducer;
6267		}
6268	<	@SuppressWarnings("unchecked") public final boolean exec() {
6268	>	public final Long getRawResult() { return result; }
6269	>	@SuppressWarnings("unchecked") public final void compute() {
6270		final ObjectToLong<? super K> transformer =
6271		this.transformer;
6272		final LongByLongToLong reducer = this.reducer;
6273		if (transformer == null \|\| reducer == null)
6274	<	return abortOnNullFunction();
6275	<	try {
6276	<	final long id = this.basis;
6277	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6278	<	do {} while (!casPending(c = pending, c+1));
6279	<	(rights = new MapReduceKeysToLongTask<K,V>
6280	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6281	<	}
6282	<	long r = id;
6283	<	while (advance() != null)
6284	<	r = reducer.apply(r, transformer.apply((K)nextKey));
6285	<	result = r;
6286	<	for (MapReduceKeysToLongTask<K,V> t = this, s;;) {
6287	<	int c; BulkTask<K,V,?> par;
6288	<	if ((c = t.pending) == 0) {
6289	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6084	<	t.result = reducer.apply(t.result, s.result);
6085	<	}
6086	<	if ((par = t.parent) == null \|\|
6087	<	!(par instanceof MapReduceKeysToLongTask)) {
6088	<	t.quietlyComplete();
6089	<	break;
6090	<	}
6091	<	t = (MapReduceKeysToLongTask<K,V>)par;
6092	<	}
6093	<	else if (t.casPending(c, c - 1))
6094	<	break;
6274	>	throw new NullPointerException();
6275	>	long r = this.basis;
6276	>	for (int b; (b = preSplit()) > 0;)
6277	>	(rights = new MapReduceKeysToLongTask<K,V>
6278	>	(map, this, b, rights, transformer, r, reducer)).fork();
6279	>	while (advance() != null)
6280	>	r = reducer.apply(r, transformer.apply((K)nextKey));
6281	>	result = r;
6282	>	CountedCompleter<?> c;
6283	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6284	>	MapReduceKeysToLongTask<K,V>
6285	>	t = (MapReduceKeysToLongTask<K,V>)c,
6286	>	s = t.rights;
6287	>	while (s != null) {
6288	>	t.result = reducer.apply(t.result, s.result);
6289	>	s = t.rights = s.nextRight;
6290		}
6096	–	} catch (Throwable ex) {
6097	–	return tryCompleteComputation(ex);
6291		}
6099	–	return false;
6292		}
6101	–	public final Long getRawResult() { return result; }
6293		}
6294
6295		@SuppressWarnings("serial") static final class MapReduceValuesToLongTask<K,V>
6296	<	extends BulkTask<K,V,Long> {
6296	>	extends Traverser<K,V,Long> {
6297		final ObjectToLong<? super V> transformer;
6298		final LongByLongToLong reducer;
6299		final long basis;
6300		long result;
6301		MapReduceValuesToLongTask<K,V> rights, nextRight;
6302		MapReduceValuesToLongTask
6303	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6303	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6304		MapReduceValuesToLongTask<K,V> nextRight,
6305		ObjectToLong<? super V> transformer,
6306		long basis,
#	Line 6118 \| Line 6309 \| public class ConcurrentHashMapV8<K, V>
6309		this.transformer = transformer;
6310		this.basis = basis; this.reducer = reducer;
6311		}
6312	<	@SuppressWarnings("unchecked") public final boolean exec() {
6312	>	public final Long getRawResult() { return result; }
6313	>	@SuppressWarnings("unchecked") public final void compute() {
6314		final ObjectToLong<? super V> transformer =
6315		this.transformer;
6316		final LongByLongToLong reducer = this.reducer;
6317		if (transformer == null \|\| reducer == null)
6318	<	return abortOnNullFunction();
6319	<	try {
6320	<	final long id = this.basis;
6321	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6322	<	do {} while (!casPending(c = pending, c+1));
6323	<	(rights = new MapReduceValuesToLongTask<K,V>
6324	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6325	<	}
6326	<	long r = id;
6327	<	Object v;
6328	<	while ((v = advance()) != null)
6329	<	r = reducer.apply(r, transformer.apply((V)v));
6330	<	result = r;
6331	<	for (MapReduceValuesToLongTask<K,V> t = this, s;;) {
6332	<	int c; BulkTask<K,V,?> par;
6333	<	if ((c = t.pending) == 0) {
6334	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6143	<	t.result = reducer.apply(t.result, s.result);
6144	<	}
6145	<	if ((par = t.parent) == null \|\|
6146	<	!(par instanceof MapReduceValuesToLongTask)) {
6147	<	t.quietlyComplete();
6148	<	break;
6149	<	}
6150	<	t = (MapReduceValuesToLongTask<K,V>)par;
6151	<	}
6152	<	else if (t.casPending(c, c - 1))
6153	<	break;
6318	>	throw new NullPointerException();
6319	>	long r = this.basis;
6320	>	for (int b; (b = preSplit()) > 0;)
6321	>	(rights = new MapReduceValuesToLongTask<K,V>
6322	>	(map, this, b, rights, transformer, r, reducer)).fork();
6323	>	Object v;
6324	>	while ((v = advance()) != null)
6325	>	r = reducer.apply(r, transformer.apply((V)v));
6326	>	result = r;
6327	>	CountedCompleter<?> c;
6328	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6329	>	MapReduceValuesToLongTask<K,V>
6330	>	t = (MapReduceValuesToLongTask<K,V>)c,
6331	>	s = t.rights;
6332	>	while (s != null) {
6333	>	t.result = reducer.apply(t.result, s.result);
6334	>	s = t.rights = s.nextRight;
6335		}
6155	–	} catch (Throwable ex) {
6156	–	return tryCompleteComputation(ex);
6336		}
6158	–	return false;
6337		}
6160	–	public final Long getRawResult() { return result; }
6338		}
6339
6340		@SuppressWarnings("serial") static final class MapReduceEntriesToLongTask<K,V>
6341	<	extends BulkTask<K,V,Long> {
6341	>	extends Traverser<K,V,Long> {
6342		final ObjectToLong<Map.Entry<K,V>> transformer;
6343		final LongByLongToLong reducer;
6344		final long basis;
6345		long result;
6346		MapReduceEntriesToLongTask<K,V> rights, nextRight;
6347		MapReduceEntriesToLongTask
6348	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6348	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6349		MapReduceEntriesToLongTask<K,V> nextRight,
6350		ObjectToLong<Map.Entry<K,V>> transformer,
6351		long basis,
#	Line 6177 \| Line 6354 \| public class ConcurrentHashMapV8<K, V>
6354		this.transformer = transformer;
6355		this.basis = basis; this.reducer = reducer;
6356		}
6357	<	@SuppressWarnings("unchecked") public final boolean exec() {
6357	>	public final Long getRawResult() { return result; }
6358	>	@SuppressWarnings("unchecked") public final void compute() {
6359		final ObjectToLong<Map.Entry<K,V>> transformer =
6360		this.transformer;
6361		final LongByLongToLong reducer = this.reducer;
6362		if (transformer == null \|\| reducer == null)
6363	<	return abortOnNullFunction();
6364	<	try {
6365	<	final long id = this.basis;
6366	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6367	<	do {} while (!casPending(c = pending, c+1));
6368	<	(rights = new MapReduceEntriesToLongTask<K,V>
6369	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6370	<	}
6371	<	long r = id;
6372	<	Object v;
6373	<	while ((v = advance()) != null)
6374	<	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6375	<	result = r;
6376	<	for (MapReduceEntriesToLongTask<K,V> t = this, s;;) {
6377	<	int c; BulkTask<K,V,?> par;
6378	<	if ((c = t.pending) == 0) {
6379	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6202	<	t.result = reducer.apply(t.result, s.result);
6203	<	}
6204	<	if ((par = t.parent) == null \|\|
6205	<	!(par instanceof MapReduceEntriesToLongTask)) {
6206	<	t.quietlyComplete();
6207	<	break;
6208	<	}
6209	<	t = (MapReduceEntriesToLongTask<K,V>)par;
6210	<	}
6211	<	else if (t.casPending(c, c - 1))
6212	<	break;
6363	>	throw new NullPointerException();
6364	>	long r = this.basis;
6365	>	for (int b; (b = preSplit()) > 0;)
6366	>	(rights = new MapReduceEntriesToLongTask<K,V>
6367	>	(map, this, b, rights, transformer, r, reducer)).fork();
6368	>	Object v;
6369	>	while ((v = advance()) != null)
6370	>	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6371	>	result = r;
6372	>	CountedCompleter<?> c;
6373	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6374	>	MapReduceEntriesToLongTask<K,V>
6375	>	t = (MapReduceEntriesToLongTask<K,V>)c,
6376	>	s = t.rights;
6377	>	while (s != null) {
6378	>	t.result = reducer.apply(t.result, s.result);
6379	>	s = t.rights = s.nextRight;
6380		}
6214	–	} catch (Throwable ex) {
6215	–	return tryCompleteComputation(ex);
6381		}
6217	–	return false;
6382		}
6219	–	public final Long getRawResult() { return result; }
6383		}
6384
6385		@SuppressWarnings("serial") static final class MapReduceMappingsToLongTask<K,V>
6386	<	extends BulkTask<K,V,Long> {
6386	>	extends Traverser<K,V,Long> {
6387		final ObjectByObjectToLong<? super K, ? super V> transformer;
6388		final LongByLongToLong reducer;
6389		final long basis;
6390		long result;
6391		MapReduceMappingsToLongTask<K,V> rights, nextRight;
6392		MapReduceMappingsToLongTask
6393	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6393	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6394		MapReduceMappingsToLongTask<K,V> nextRight,
6395		ObjectByObjectToLong<? super K, ? super V> transformer,
6396		long basis,
#	Line 6236 \| Line 6399 \| public class ConcurrentHashMapV8<K, V>
6399		this.transformer = transformer;
6400		this.basis = basis; this.reducer = reducer;
6401		}
6402	<	@SuppressWarnings("unchecked") public final boolean exec() {
6402	>	public final Long getRawResult() { return result; }
6403	>	@SuppressWarnings("unchecked") public final void compute() {
6404		final ObjectByObjectToLong<? super K, ? super V> transformer =
6405		this.transformer;
6406		final LongByLongToLong reducer = this.reducer;
6407		if (transformer == null \|\| reducer == null)
6408	<	return abortOnNullFunction();
6409	<	try {
6410	<	final long id = this.basis;
6411	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6412	<	do {} while (!casPending(c = pending, c+1));
6413	<	(rights = new MapReduceMappingsToLongTask<K,V>
6414	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6415	<	}
6416	<	long r = id;
6417	<	Object v;
6418	<	while ((v = advance()) != null)
6419	<	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6420	<	result = r;
6421	<	for (MapReduceMappingsToLongTask<K,V> t = this, s;;) {
6422	<	int c; BulkTask<K,V,?> par;
6423	<	if ((c = t.pending) == 0) {
6424	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6261	<	t.result = reducer.apply(t.result, s.result);
6262	<	}
6263	<	if ((par = t.parent) == null \|\|
6264	<	!(par instanceof MapReduceMappingsToLongTask)) {
6265	<	t.quietlyComplete();
6266	<	break;
6267	<	}
6268	<	t = (MapReduceMappingsToLongTask<K,V>)par;
6269	<	}
6270	<	else if (t.casPending(c, c - 1))
6271	<	break;
6408	>	throw new NullPointerException();
6409	>	long r = this.basis;
6410	>	for (int b; (b = preSplit()) > 0;)
6411	>	(rights = new MapReduceMappingsToLongTask<K,V>
6412	>	(map, this, b, rights, transformer, r, reducer)).fork();
6413	>	Object v;
6414	>	while ((v = advance()) != null)
6415	>	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6416	>	result = r;
6417	>	CountedCompleter<?> c;
6418	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6419	>	MapReduceMappingsToLongTask<K,V>
6420	>	t = (MapReduceMappingsToLongTask<K,V>)c,
6421	>	s = t.rights;
6422	>	while (s != null) {
6423	>	t.result = reducer.apply(t.result, s.result);
6424	>	s = t.rights = s.nextRight;
6425		}
6273	–	} catch (Throwable ex) {
6274	–	return tryCompleteComputation(ex);
6426		}
6276	–	return false;
6427		}
6278	–	public final Long getRawResult() { return result; }
6428		}
6429
6430		@SuppressWarnings("serial") static final class MapReduceKeysToIntTask<K,V>
6431	<	extends BulkTask<K,V,Integer> {
6431	>	extends Traverser<K,V,Integer> {
6432		final ObjectToInt<? super K> transformer;
6433		final IntByIntToInt reducer;
6434		final int basis;
6435		int result;
6436		MapReduceKeysToIntTask<K,V> rights, nextRight;
6437		MapReduceKeysToIntTask
6438	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6438	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6439		MapReduceKeysToIntTask<K,V> nextRight,
6440		ObjectToInt<? super K> transformer,
6441		int basis,
#	Line 6295 \| Line 6444 \| public class ConcurrentHashMapV8<K, V>
6444		this.transformer = transformer;
6445		this.basis = basis; this.reducer = reducer;
6446		}
6447	<	@SuppressWarnings("unchecked") public final boolean exec() {
6447	>	public final Integer getRawResult() { return result; }
6448	>	@SuppressWarnings("unchecked") public final void compute() {
6449		final ObjectToInt<? super K> transformer =
6450		this.transformer;
6451		final IntByIntToInt reducer = this.reducer;
6452		if (transformer == null \|\| reducer == null)
6453	<	return abortOnNullFunction();
6454	<	try {
6455	<	final int id = this.basis;
6456	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6457	<	do {} while (!casPending(c = pending, c+1));
6458	<	(rights = new MapReduceKeysToIntTask<K,V>
6459	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6460	<	}
6461	<	int r = id;
6462	<	while (advance() != null)
6463	<	r = reducer.apply(r, transformer.apply((K)nextKey));
6464	<	result = r;
6465	<	for (MapReduceKeysToIntTask<K,V> t = this, s;;) {
6466	<	int c; BulkTask<K,V,?> par;
6467	<	if ((c = t.pending) == 0) {
6468	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6319	<	t.result = reducer.apply(t.result, s.result);
6320	<	}
6321	<	if ((par = t.parent) == null \|\|
6322	<	!(par instanceof MapReduceKeysToIntTask)) {
6323	<	t.quietlyComplete();
6324	<	break;
6325	<	}
6326	<	t = (MapReduceKeysToIntTask<K,V>)par;
6327	<	}
6328	<	else if (t.casPending(c, c - 1))
6329	<	break;
6453	>	throw new NullPointerException();
6454	>	int r = this.basis;
6455	>	for (int b; (b = preSplit()) > 0;)
6456	>	(rights = new MapReduceKeysToIntTask<K,V>
6457	>	(map, this, b, rights, transformer, r, reducer)).fork();
6458	>	while (advance() != null)
6459	>	r = reducer.apply(r, transformer.apply((K)nextKey));
6460	>	result = r;
6461	>	CountedCompleter<?> c;
6462	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6463	>	MapReduceKeysToIntTask<K,V>
6464	>	t = (MapReduceKeysToIntTask<K,V>)c,
6465	>	s = t.rights;
6466	>	while (s != null) {
6467	>	t.result = reducer.apply(t.result, s.result);
6468	>	s = t.rights = s.nextRight;
6469		}
6331	–	} catch (Throwable ex) {
6332	–	return tryCompleteComputation(ex);
6470		}
6334	–	return false;
6471		}
6336	–	public final Integer getRawResult() { return result; }
6472		}
6473
6474		@SuppressWarnings("serial") static final class MapReduceValuesToIntTask<K,V>
6475	<	extends BulkTask<K,V,Integer> {
6475	>	extends Traverser<K,V,Integer> {
6476		final ObjectToInt<? super V> transformer;
6477		final IntByIntToInt reducer;
6478		final int basis;
6479		int result;
6480		MapReduceValuesToIntTask<K,V> rights, nextRight;
6481		MapReduceValuesToIntTask
6482	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6482	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6483		MapReduceValuesToIntTask<K,V> nextRight,
6484		ObjectToInt<? super V> transformer,
6485		int basis,
#	Line 6353 \| Line 6488 \| public class ConcurrentHashMapV8<K, V>
6488		this.transformer = transformer;
6489		this.basis = basis; this.reducer = reducer;
6490		}
6491	<	@SuppressWarnings("unchecked") public final boolean exec() {
6491	>	public final Integer getRawResult() { return result; }
6492	>	@SuppressWarnings("unchecked") public final void compute() {
6493		final ObjectToInt<? super V> transformer =
6494		this.transformer;
6495		final IntByIntToInt reducer = this.reducer;
6496		if (transformer == null \|\| reducer == null)
6497	<	return abortOnNullFunction();
6498	<	try {
6499	<	final int id = this.basis;
6500	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6501	<	do {} while (!casPending(c = pending, c+1));
6502	<	(rights = new MapReduceValuesToIntTask<K,V>
6503	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6504	<	}
6505	<	int r = id;
6506	<	Object v;
6507	<	while ((v = advance()) != null)
6508	<	r = reducer.apply(r, transformer.apply((V)v));
6509	<	result = r;
6510	<	for (MapReduceValuesToIntTask<K,V> t = this, s;;) {
6511	<	int c; BulkTask<K,V,?> par;
6512	<	if ((c = t.pending) == 0) {
6513	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6378	<	t.result = reducer.apply(t.result, s.result);
6379	<	}
6380	<	if ((par = t.parent) == null \|\|
6381	<	!(par instanceof MapReduceValuesToIntTask)) {
6382	<	t.quietlyComplete();
6383	<	break;
6384	<	}
6385	<	t = (MapReduceValuesToIntTask<K,V>)par;
6386	<	}
6387	<	else if (t.casPending(c, c - 1))
6388	<	break;
6497	>	throw new NullPointerException();
6498	>	int r = this.basis;
6499	>	for (int b; (b = preSplit()) > 0;)
6500	>	(rights = new MapReduceValuesToIntTask<K,V>
6501	>	(map, this, b, rights, transformer, r, reducer)).fork();
6502	>	Object v;
6503	>	while ((v = advance()) != null)
6504	>	r = reducer.apply(r, transformer.apply((V)v));
6505	>	result = r;
6506	>	CountedCompleter<?> c;
6507	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6508	>	MapReduceValuesToIntTask<K,V>
6509	>	t = (MapReduceValuesToIntTask<K,V>)c,
6510	>	s = t.rights;
6511	>	while (s != null) {
6512	>	t.result = reducer.apply(t.result, s.result);
6513	>	s = t.rights = s.nextRight;
6514		}
6390	–	} catch (Throwable ex) {
6391	–	return tryCompleteComputation(ex);
6515		}
6393	–	return false;
6516		}
6395	–	public final Integer getRawResult() { return result; }
6517		}
6518
6519		@SuppressWarnings("serial") static final class MapReduceEntriesToIntTask<K,V>
6520	<	extends BulkTask<K,V,Integer> {
6520	>	extends Traverser<K,V,Integer> {
6521		final ObjectToInt<Map.Entry<K,V>> transformer;
6522		final IntByIntToInt reducer;
6523		final int basis;
6524		int result;
6525		MapReduceEntriesToIntTask<K,V> rights, nextRight;
6526		MapReduceEntriesToIntTask
6527	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6527	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6528		MapReduceEntriesToIntTask<K,V> nextRight,
6529		ObjectToInt<Map.Entry<K,V>> transformer,
6530		int basis,
#	Line 6412 \| Line 6533 \| public class ConcurrentHashMapV8<K, V>
6533		this.transformer = transformer;
6534		this.basis = basis; this.reducer = reducer;
6535		}
6536	<	@SuppressWarnings("unchecked") public final boolean exec() {
6536	>	public final Integer getRawResult() { return result; }
6537	>	@SuppressWarnings("unchecked") public final void compute() {
6538		final ObjectToInt<Map.Entry<K,V>> transformer =
6539		this.transformer;
6540		final IntByIntToInt reducer = this.reducer;
6541		if (transformer == null \|\| reducer == null)
6542	<	return abortOnNullFunction();
6543	<	try {
6544	<	final int id = this.basis;
6545	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6546	<	do {} while (!casPending(c = pending, c+1));
6547	<	(rights = new MapReduceEntriesToIntTask<K,V>
6548	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6549	<	}
6550	<	int r = id;
6551	<	Object v;
6552	<	while ((v = advance()) != null)
6553	<	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6554	<	result = r;
6555	<	for (MapReduceEntriesToIntTask<K,V> t = this, s;;) {
6556	<	int c; BulkTask<K,V,?> par;
6557	<	if ((c = t.pending) == 0) {
6558	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6437	<	t.result = reducer.apply(t.result, s.result);
6438	<	}
6439	<	if ((par = t.parent) == null \|\|
6440	<	!(par instanceof MapReduceEntriesToIntTask)) {
6441	<	t.quietlyComplete();
6442	<	break;
6443	<	}
6444	<	t = (MapReduceEntriesToIntTask<K,V>)par;
6445	<	}
6446	<	else if (t.casPending(c, c - 1))
6447	<	break;
6542	>	throw new NullPointerException();
6543	>	int r = this.basis;
6544	>	for (int b; (b = preSplit()) > 0;)
6545	>	(rights = new MapReduceEntriesToIntTask<K,V>
6546	>	(map, this, b, rights, transformer, r, reducer)).fork();
6547	>	Object v;
6548	>	while ((v = advance()) != null)
6549	>	r = reducer.apply(r, transformer.apply(entryFor((K)nextKey, (V)v)));
6550	>	result = r;
6551	>	CountedCompleter<?> c;
6552	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6553	>	MapReduceEntriesToIntTask<K,V>
6554	>	t = (MapReduceEntriesToIntTask<K,V>)c,
6555	>	s = t.rights;
6556	>	while (s != null) {
6557	>	t.result = reducer.apply(t.result, s.result);
6558	>	s = t.rights = s.nextRight;
6559		}
6449	–	} catch (Throwable ex) {
6450	–	return tryCompleteComputation(ex);
6560		}
6452	–	return false;
6561		}
6454	–	public final Integer getRawResult() { return result; }
6562		}
6563
6564		@SuppressWarnings("serial") static final class MapReduceMappingsToIntTask<K,V>
6565	<	extends BulkTask<K,V,Integer> {
6565	>	extends Traverser<K,V,Integer> {
6566		final ObjectByObjectToInt<? super K, ? super V> transformer;
6567		final IntByIntToInt reducer;
6568		final int basis;
6569		int result;
6570		MapReduceMappingsToIntTask<K,V> rights, nextRight;
6571		MapReduceMappingsToIntTask
6572	<	(ConcurrentHashMapV8<K,V> m, BulkTask<K,V,?> p, int b,
6573	<	MapReduceMappingsToIntTask<K,V> rights,
6572	>	(ConcurrentHashMapV8<K,V> m, Traverser<K,V,?> p, int b,
6573	>	MapReduceMappingsToIntTask<K,V> nextRight,
6574		ObjectByObjectToInt<? super K, ? super V> transformer,
6575		int basis,
6576		IntByIntToInt reducer) {
#	Line 6471 \| Line 6578 \| public class ConcurrentHashMapV8<K, V>
6578		this.transformer = transformer;
6579		this.basis = basis; this.reducer = reducer;
6580		}
6581	<	@SuppressWarnings("unchecked") public final boolean exec() {
6581	>	public final Integer getRawResult() { return result; }
6582	>	@SuppressWarnings("unchecked") public final void compute() {
6583		final ObjectByObjectToInt<? super K, ? super V> transformer =
6584		this.transformer;
6585		final IntByIntToInt reducer = this.reducer;
6586		if (transformer == null \|\| reducer == null)
6587	<	return abortOnNullFunction();
6588	<	try {
6589	<	final int id = this.basis;
6590	<	for (int c, b = batch(); b > 1 && baseIndex != baseLimit;) {
6591	<	do {} while (!casPending(c = pending, c+1));
6592	<	(rights = new MapReduceMappingsToIntTask<K,V>
6593	<	(map, this, b >>>= 1, rights, transformer, id, reducer)).fork();
6594	<	}
6595	<	int r = id;
6596	<	Object v;
6597	<	while ((v = advance()) != null)
6598	<	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6599	<	result = r;
6600	<	for (MapReduceMappingsToIntTask<K,V> t = this, s;;) {
6601	<	int c; BulkTask<K,V,?> par;
6602	<	if ((c = t.pending) == 0) {
6603	<	for (s = t.rights; s != null; s = t.rights = s.nextRight) {
6496	<	t.result = reducer.apply(t.result, s.result);
6497	<	}
6498	<	if ((par = t.parent) == null \|\|
6499	<	!(par instanceof MapReduceMappingsToIntTask)) {
6500	<	t.quietlyComplete();
6501	<	break;
6502	<	}
6503	<	t = (MapReduceMappingsToIntTask<K,V>)par;
6504	<	}
6505	<	else if (t.casPending(c, c - 1))
6506	<	break;
6587	>	throw new NullPointerException();
6588	>	int r = this.basis;
6589	>	for (int b; (b = preSplit()) > 0;)
6590	>	(rights = new MapReduceMappingsToIntTask<K,V>
6591	>	(map, this, b, rights, transformer, r, reducer)).fork();
6592	>	Object v;
6593	>	while ((v = advance()) != null)
6594	>	r = reducer.apply(r, transformer.apply((K)nextKey, (V)v));
6595	>	result = r;
6596	>	CountedCompleter<?> c;
6597	>	for (c = firstComplete(); c != null; c = c.nextComplete()) {
6598	>	MapReduceMappingsToIntTask<K,V>
6599	>	t = (MapReduceMappingsToIntTask<K,V>)c,
6600	>	s = t.rights;
6601	>	while (s != null) {
6602	>	t.result = reducer.apply(t.result, s.result);
6603	>	s = t.rights = s.nextRight;
6604		}
6508	–	} catch (Throwable ex) {
6509	–	return tryCompleteComputation(ex);
6605		}
6511	–	return false;
6606		}
6513	–	public final Integer getRawResult() { return result; }
6607		}
6608
6516	–
6609		// Unsafe mechanics
6610		private static final sun.misc.Unsafe UNSAFE;
6611		private static final long counterOffset;

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Comparing jsr166/src/jsr166e/ConcurrentHashMapV8.java (file contents): Revision 1.65 by jsr166, Sun Oct 21 02:37:58 2012 UTC vs. Revision 1.79 by dl, Fri Nov 23 17:50:51 2012 UTC

Diff Legend

Comparing jsr166/src/jsr166e/ConcurrentHashMapV8.java (file contents):
Revision 1.65 by jsr166, Sun Oct 21 02:37:58 2012 UTC vs.
Revision 1.79 by dl, Fri Nov 23 17:50:51 2012 UTC