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/* |
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* Written by Doug Lea with assistance from members of JCP JSR-166 |
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* Expert Group and released to the public domain, as explained at |
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* http://creativecommons.org/publicdomain/zero/1.0/ |
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*/ |
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package jsr166e; |
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1.71 |
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1.102 |
import jsr166e.ForkJoinPool; |
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import java.io.ObjectStreamField; |
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import java.io.Serializable; |
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import java.lang.reflect.ParameterizedType; |
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import java.lang.reflect.Type; |
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1.24 |
import java.util.Arrays; |
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1.1 |
import java.util.Collection; |
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1.102 |
import java.util.Comparator; |
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import java.util.ConcurrentModificationException; |
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import java.util.Enumeration; |
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import java.util.HashMap; |
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1.1 |
import java.util.Hashtable; |
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import java.util.Iterator; |
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1.102 |
import java.util.Map; |
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1.1 |
import java.util.NoSuchElementException; |
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import java.util.Set; |
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1.1 |
import java.util.concurrent.ConcurrentMap; |
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1.102 |
import java.util.concurrent.atomic.AtomicReference; |
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import java.util.concurrent.atomic.AtomicInteger; |
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1.102 |
import java.util.concurrent.locks.LockSupport; |
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import java.util.concurrent.locks.ReentrantLock; |
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/** |
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* A hash table supporting full concurrency of retrievals and |
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* high expected concurrency for updates. This class obeys the |
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* same functional specification as {@link java.util.Hashtable}, and |
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* includes versions of methods corresponding to each method of |
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* {@code Hashtable}. However, even though all operations are |
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* thread-safe, retrieval operations do <em>not</em> entail locking, |
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* and there is <em>not</em> any support for locking the entire table |
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* in a way that prevents all access. This class is fully |
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* interoperable with {@code Hashtable} in programs that rely on its |
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* thread safety but not on its synchronization details. |
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* |
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jsr166 |
1.78 |
* <p>Retrieval operations (including {@code get}) generally do not |
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1.1 |
* block, so may overlap with update operations (including {@code put} |
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* and {@code remove}). Retrievals reflect the results of the most |
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* recently <em>completed</em> update operations holding upon their |
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* onset. (More formally, an update operation for a given key bears a |
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* <em>happens-before</em> relation with any (non-null) retrieval for |
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* that key reporting the updated value.) For aggregate operations |
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* such as {@code putAll} and {@code clear}, concurrent retrievals may |
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* reflect insertion or removal of only some entries. Similarly, |
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* Iterators and Enumerations return elements reflecting the state of |
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* the hash table at some point at or since the creation of the |
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* iterator/enumeration. They do <em>not</em> throw {@link |
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* ConcurrentModificationException}. However, iterators are designed |
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* to be used by only one thread at a time. Bear in mind that the |
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* results of aggregate status methods including {@code size}, {@code |
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* isEmpty}, and {@code containsValue} are typically useful only when |
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* a map is not undergoing concurrent updates in other threads. |
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* Otherwise the results of these methods reflect transient states |
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* that may be adequate for monitoring or estimation purposes, but not |
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* for program control. |
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* |
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* <p>The table is dynamically expanded when there are too many |
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* collisions (i.e., keys that have distinct hash codes but fall into |
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* the same slot modulo the table size), with the expected average |
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* effect of maintaining roughly two bins per mapping (corresponding |
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* to a 0.75 load factor threshold for resizing). There may be much |
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* variance around this average as mappings are added and removed, but |
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* overall, this maintains a commonly accepted time/space tradeoff for |
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* hash tables. However, resizing this or any other kind of hash |
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* table may be a relatively slow operation. When possible, it is a |
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* good idea to provide a size estimate as an optional {@code |
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* initialCapacity} constructor argument. An additional optional |
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* {@code loadFactor} constructor argument provides a further means of |
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* customizing initial table capacity by specifying the table density |
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* to be used in calculating the amount of space to allocate for the |
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* given number of elements. Also, for compatibility with previous |
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* versions of this class, constructors may optionally specify an |
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* expected {@code concurrencyLevel} as an additional hint for |
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* internal sizing. Note that using many keys with exactly the same |
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jsr166 |
1.31 |
* {@code hashCode()} is a sure way to slow down performance of any |
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1.102 |
* hash table. To ameliorate impact, when keys are {@link Comparable}, |
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* this class may use comparison order among keys to help break ties. |
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* |
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jsr166 |
1.78 |
* <p>A {@link Set} projection of a ConcurrentHashMapV8 may be created |
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1.70 |
* (using {@link #newKeySet()} or {@link #newKeySet(int)}), or viewed |
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* (using {@link #keySet(Object)} when only keys are of interest, and the |
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* mapped values are (perhaps transiently) not used or all take the |
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* same mapping value. |
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* |
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* <p>This class and its views and iterators implement all of the |
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* <em>optional</em> methods of the {@link Map} and {@link Iterator} |
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* interfaces. |
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* |
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1.78 |
* <p>Like {@link Hashtable} but unlike {@link HashMap}, this class |
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1.1 |
* does <em>not</em> allow {@code null} to be used as a key or value. |
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* |
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1.102 |
* <p>ConcurrentHashMapV8s support a set of sequential and parallel bulk |
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* operations that are designed |
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* to be safely, and often sensibly, applied even with maps that are |
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* being concurrently updated by other threads; for example, when |
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* computing a snapshot summary of the values in a shared registry. |
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* There are three kinds of operation, each with four forms, accepting |
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* functions with Keys, Values, Entries, and (Key, Value) arguments |
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* and/or return values. Because the elements of a ConcurrentHashMapV8 |
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* are not ordered in any particular way, and may be processed in |
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* different orders in different parallel executions, the correctness |
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* of supplied functions should not depend on any ordering, or on any |
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* other objects or values that may transiently change while |
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* computation is in progress; and except for forEach actions, should |
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* ideally be side-effect-free. Bulk operations on {@link java.util.Map.Entry} |
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* objects do not support method {@code setValue}. |
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* |
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* <ul> |
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* <li> forEach: Perform a given action on each element. |
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* A variant form applies a given transformation on each element |
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* before performing the action.</li> |
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* |
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* <li> search: Return the first available non-null result of |
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* applying a given function on each element; skipping further |
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* search when a result is found.</li> |
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* |
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* <li> reduce: Accumulate each element. The supplied reduction |
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* function cannot rely on ordering (more formally, it should be |
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* both associative and commutative). There are five variants: |
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* |
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* <ul> |
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* |
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* <li> Plain reductions. (There is not a form of this method for |
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* (key, value) function arguments since there is no corresponding |
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* return type.)</li> |
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* |
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* <li> Mapped reductions that accumulate the results of a given |
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* function applied to each element.</li> |
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* |
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* <li> Reductions to scalar doubles, longs, and ints, using a |
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* given basis value.</li> |
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* |
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1.102 |
* </ul> |
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1.70 |
* </li> |
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* </ul> |
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* |
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* <p>These bulk operations accept a {@code parallelismThreshold} |
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* argument. Methods proceed sequentially if the current map size is |
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* estimated to be less than the given threshold. Using a value of |
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* {@code Long.MAX_VALUE} suppresses all parallelism. Using a value |
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* of {@code 1} results in maximal parallelism by partitioning into |
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* enough subtasks to fully utilize the {@link |
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* ForkJoinPool#commonPool()} that is used for all parallel |
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* computations. Normally, you would initially choose one of these |
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* extreme values, and then measure performance of using in-between |
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* values that trade off overhead versus throughput. |
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1.70 |
* |
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* <p>The concurrency properties of bulk operations follow |
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* from those of ConcurrentHashMapV8: Any non-null result returned |
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* from {@code get(key)} and related access methods bears a |
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* happens-before relation with the associated insertion or |
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* update. The result of any bulk operation reflects the |
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* composition of these per-element relations (but is not |
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* necessarily atomic with respect to the map as a whole unless it |
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* is somehow known to be quiescent). Conversely, because keys |
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* and values in the map are never null, null serves as a reliable |
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* atomic indicator of the current lack of any result. To |
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* maintain this property, null serves as an implicit basis for |
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* all non-scalar reduction operations. For the double, long, and |
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* int versions, the basis should be one that, when combined with |
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* any other value, returns that other value (more formally, it |
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* should be the identity element for the reduction). Most common |
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* reductions have these properties; for example, computing a sum |
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* with basis 0 or a minimum with basis MAX_VALUE. |
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* |
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* <p>Search and transformation functions provided as arguments |
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* should similarly return null to indicate the lack of any result |
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* (in which case it is not used). In the case of mapped |
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* reductions, this also enables transformations to serve as |
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* filters, returning null (or, in the case of primitive |
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* specializations, the identity basis) if the element should not |
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* be combined. You can create compound transformations and |
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* filterings by composing them yourself under this "null means |
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* there is nothing there now" rule before using them in search or |
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* reduce operations. |
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* |
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* <p>Methods accepting and/or returning Entry arguments maintain |
186 |
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* key-value associations. They may be useful for example when |
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* finding the key for the greatest value. Note that "plain" Entry |
188 |
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* arguments can be supplied using {@code new |
189 |
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* AbstractMap.SimpleEntry(k,v)}. |
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* |
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jsr166 |
1.78 |
* <p>Bulk operations may complete abruptly, throwing an |
192 |
dl |
1.70 |
* exception encountered in the application of a supplied |
193 |
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* function. Bear in mind when handling such exceptions that other |
194 |
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* concurrently executing functions could also have thrown |
195 |
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* exceptions, or would have done so if the first exception had |
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* not occurred. |
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* |
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dl |
1.84 |
* <p>Speedups for parallel compared to sequential forms are common |
199 |
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* but not guaranteed. Parallel operations involving brief functions |
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* on small maps may execute more slowly than sequential forms if the |
201 |
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* underlying work to parallelize the computation is more expensive |
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* than the computation itself. Similarly, parallelization may not |
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* lead to much actual parallelism if all processors are busy |
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* performing unrelated tasks. |
205 |
dl |
1.70 |
* |
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jsr166 |
1.78 |
* <p>All arguments to all task methods must be non-null. |
207 |
dl |
1.70 |
* |
208 |
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* <p><em>jsr166e note: During transition, this class |
209 |
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* uses nested functional interfaces with different names but the |
210 |
jsr166 |
1.77 |
* same forms as those expected for JDK8.</em> |
211 |
dl |
1.70 |
* |
212 |
dl |
1.1 |
* <p>This class is a member of the |
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* <a href="{@docRoot}/../technotes/guides/collections/index.html"> |
214 |
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* Java Collections Framework</a>. |
215 |
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* |
216 |
jsr166 |
1.22 |
* @since 1.5 |
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dl |
1.1 |
* @author Doug Lea |
218 |
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* @param <K> the type of keys maintained by this map |
219 |
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* @param <V> the type of mapped values |
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*/ |
221 |
jsr166 |
1.99 |
public class ConcurrentHashMapV8<K,V> |
222 |
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implements ConcurrentMap<K,V>, Serializable { |
223 |
dl |
1.1 |
private static final long serialVersionUID = 7249069246763182397L; |
224 |
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225 |
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/** |
226 |
dl |
1.102 |
* An object for traversing and partitioning elements of a source. |
227 |
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* This interface provides a subset of the functionality of JDK8 |
228 |
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* java.util.Spliterator. |
229 |
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*/ |
230 |
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public static interface ConcurrentHashMapSpliterator<T> { |
231 |
jsr166 |
1.103 |
/** |
232 |
dl |
1.102 |
* If possible, returns a new spliterator covering |
233 |
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* approximately one half of the elements, which will not be |
234 |
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* covered by this spliterator. Returns null if cannot be |
235 |
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* split. |
236 |
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*/ |
237 |
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ConcurrentHashMapSpliterator<T> trySplit(); |
238 |
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/** |
239 |
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* Returns an estimate of the number of elements covered by |
240 |
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* this Spliterator. |
241 |
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*/ |
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long estimateSize(); |
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244 |
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/** Applies the action to each untraversed element */ |
245 |
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void forEachRemaining(Action<? super T> action); |
246 |
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/** If an element remains, applies the action and returns true. */ |
247 |
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boolean tryAdvance(Action<? super T> action); |
248 |
dl |
1.41 |
} |
249 |
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250 |
dl |
1.102 |
// Sams |
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/** Interface describing a void action of one argument */ |
252 |
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public interface Action<A> { void apply(A a); } |
253 |
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/** Interface describing a void action of two arguments */ |
254 |
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public interface BiAction<A,B> { void apply(A a, B b); } |
255 |
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/** Interface describing a function of one argument */ |
256 |
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public interface Fun<A,T> { T apply(A a); } |
257 |
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/** Interface describing a function of two arguments */ |
258 |
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public interface BiFun<A,B,T> { T apply(A a, B b); } |
259 |
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/** Interface describing a function mapping its argument to a double */ |
260 |
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public interface ObjectToDouble<A> { double apply(A a); } |
261 |
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/** Interface describing a function mapping its argument to a long */ |
262 |
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public interface ObjectToLong<A> { long apply(A a); } |
263 |
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/** Interface describing a function mapping its argument to an int */ |
264 |
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public interface ObjectToInt<A> {int apply(A a); } |
265 |
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/** Interface describing a function mapping two arguments to a double */ |
266 |
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public interface ObjectByObjectToDouble<A,B> { double apply(A a, B b); } |
267 |
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/** Interface describing a function mapping two arguments to a long */ |
268 |
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public interface ObjectByObjectToLong<A,B> { long apply(A a, B b); } |
269 |
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/** Interface describing a function mapping two arguments to an int */ |
270 |
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public interface ObjectByObjectToInt<A,B> {int apply(A a, B b); } |
271 |
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/** Interface describing a function mapping two doubles to a double */ |
272 |
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public interface DoubleByDoubleToDouble { double apply(double a, double b); } |
273 |
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/** Interface describing a function mapping two longs to a long */ |
274 |
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public interface LongByLongToLong { long apply(long a, long b); } |
275 |
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/** Interface describing a function mapping two ints to an int */ |
276 |
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public interface IntByIntToInt { int apply(int a, int b); } |
277 |
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|
278 |
dl |
1.1 |
/* |
279 |
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* Overview: |
280 |
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* |
281 |
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* The primary design goal of this hash table is to maintain |
282 |
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* concurrent readability (typically method get(), but also |
283 |
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* iterators and related methods) while minimizing update |
284 |
dl |
1.24 |
* contention. Secondary goals are to keep space consumption about |
285 |
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* the same or better than java.util.HashMap, and to support high |
286 |
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* initial insertion rates on an empty table by many threads. |
287 |
dl |
1.1 |
* |
288 |
dl |
1.102 |
* This map usually acts as a binned (bucketed) hash table. Each |
289 |
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* key-value mapping is held in a Node. Most nodes are instances |
290 |
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* of the basic Node class with hash, key, value, and next |
291 |
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* fields. However, various subclasses exist: TreeNodes are |
292 |
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* arranged in balanced trees, not lists. TreeBins hold the roots |
293 |
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* of sets of TreeNodes. ForwardingNodes are placed at the heads |
294 |
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* of bins during resizing. ReservationNodes are used as |
295 |
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* placeholders while establishing values in computeIfAbsent and |
296 |
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* related methods. The types TreeBin, ForwardingNode, and |
297 |
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* ReservationNode do not hold normal user keys, values, or |
298 |
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* hashes, and are readily distinguishable during search etc |
299 |
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* because they have negative hash fields and null key and value |
300 |
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* fields. (These special nodes are either uncommon or transient, |
301 |
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* so the impact of carrying around some unused fields is |
302 |
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* insignficant.) |
303 |
dl |
1.1 |
* |
304 |
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* The table is lazily initialized to a power-of-two size upon the |
305 |
dl |
1.38 |
* first insertion. Each bin in the table normally contains a |
306 |
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* list of Nodes (most often, the list has only zero or one Node). |
307 |
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* Table accesses require volatile/atomic reads, writes, and |
308 |
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* CASes. Because there is no other way to arrange this without |
309 |
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* adding further indirections, we use intrinsics |
310 |
dl |
1.102 |
* (sun.misc.Unsafe) operations. |
311 |
dl |
1.24 |
* |
312 |
dl |
1.82 |
* We use the top (sign) bit of Node hash fields for control |
313 |
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* purposes -- it is available anyway because of addressing |
314 |
dl |
1.102 |
* constraints. Nodes with negative hash fields are specially |
315 |
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* handled or ignored in map methods. |
316 |
dl |
1.14 |
* |
317 |
dl |
1.27 |
* Insertion (via put or its variants) of the first node in an |
318 |
dl |
1.14 |
* empty bin is performed by just CASing it to the bin. This is |
319 |
dl |
1.38 |
* by far the most common case for put operations under most |
320 |
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* key/hash distributions. Other update operations (insert, |
321 |
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* delete, and replace) require locks. We do not want to waste |
322 |
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* the space required to associate a distinct lock object with |
323 |
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* each bin, so instead use the first node of a bin list itself as |
324 |
dl |
1.82 |
* a lock. Locking support for these locks relies on builtin |
325 |
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* "synchronized" monitors. |
326 |
dl |
1.24 |
* |
327 |
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* Using the first node of a list as a lock does not by itself |
328 |
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* suffice though: When a node is locked, any update must first |
329 |
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* validate that it is still the first node after locking it, and |
330 |
|
|
* retry if not. Because new nodes are always appended to lists, |
331 |
|
|
* once a node is first in a bin, it remains first until deleted |
332 |
dl |
1.102 |
* or the bin becomes invalidated (upon resizing). |
333 |
dl |
1.14 |
* |
334 |
dl |
1.24 |
* The main disadvantage of per-bin locks is that other update |
335 |
dl |
1.14 |
* operations on other nodes in a bin list protected by the same |
336 |
|
|
* lock can stall, for example when user equals() or mapping |
337 |
dl |
1.38 |
* functions take a long time. However, statistically, under |
338 |
|
|
* random hash codes, this is not a common problem. Ideally, the |
339 |
|
|
* frequency of nodes in bins follows a Poisson distribution |
340 |
dl |
1.14 |
* (http://en.wikipedia.org/wiki/Poisson_distribution) with a |
341 |
dl |
1.16 |
* parameter of about 0.5 on average, given the resizing threshold |
342 |
|
|
* of 0.75, although with a large variance because of resizing |
343 |
|
|
* granularity. Ignoring variance, the expected occurrences of |
344 |
|
|
* list size k are (exp(-0.5) * pow(0.5, k) / factorial(k)). The |
345 |
dl |
1.38 |
* first values are: |
346 |
dl |
1.16 |
* |
347 |
dl |
1.38 |
* 0: 0.60653066 |
348 |
|
|
* 1: 0.30326533 |
349 |
|
|
* 2: 0.07581633 |
350 |
|
|
* 3: 0.01263606 |
351 |
|
|
* 4: 0.00157952 |
352 |
|
|
* 5: 0.00015795 |
353 |
|
|
* 6: 0.00001316 |
354 |
|
|
* 7: 0.00000094 |
355 |
|
|
* 8: 0.00000006 |
356 |
|
|
* more: less than 1 in ten million |
357 |
dl |
1.16 |
* |
358 |
|
|
* Lock contention probability for two threads accessing distinct |
359 |
dl |
1.38 |
* elements is roughly 1 / (8 * #elements) under random hashes. |
360 |
|
|
* |
361 |
|
|
* Actual hash code distributions encountered in practice |
362 |
|
|
* sometimes deviate significantly from uniform randomness. This |
363 |
|
|
* includes the case when N > (1<<30), so some keys MUST collide. |
364 |
|
|
* Similarly for dumb or hostile usages in which multiple keys are |
365 |
dl |
1.102 |
* designed to have identical hash codes or ones that differs only |
366 |
|
|
* in masked-out high bits. So we use a secondary strategy that |
367 |
|
|
* applies when the number of nodes in a bin exceeds a |
368 |
|
|
* threshold. These TreeBins use a balanced tree to hold nodes (a |
369 |
|
|
* specialized form of red-black trees), bounding search time to |
370 |
|
|
* O(log N). Each search step in a TreeBin is at least twice as |
371 |
dl |
1.38 |
* slow as in a regular list, but given that N cannot exceed |
372 |
|
|
* (1<<64) (before running out of addresses) this bounds search |
373 |
|
|
* steps, lock hold times, etc, to reasonable constants (roughly |
374 |
|
|
* 100 nodes inspected per operation worst case) so long as keys |
375 |
|
|
* are Comparable (which is very common -- String, Long, etc). |
376 |
|
|
* TreeBin nodes (TreeNodes) also maintain the same "next" |
377 |
|
|
* traversal pointers as regular nodes, so can be traversed in |
378 |
|
|
* iterators in the same way. |
379 |
dl |
1.1 |
* |
380 |
dl |
1.38 |
* The table is resized when occupancy exceeds a percentage |
381 |
dl |
1.82 |
* threshold (nominally, 0.75, but see below). Any thread |
382 |
|
|
* noticing an overfull bin may assist in resizing after the |
383 |
|
|
* initiating thread allocates and sets up the replacement |
384 |
|
|
* array. However, rather than stalling, these other threads may |
385 |
|
|
* proceed with insertions etc. The use of TreeBins shields us |
386 |
|
|
* from the worst case effects of overfilling while resizes are in |
387 |
|
|
* progress. Resizing proceeds by transferring bins, one by one, |
388 |
|
|
* from the table to the next table. To enable concurrency, the |
389 |
|
|
* next table must be (incrementally) prefilled with place-holders |
390 |
|
|
* serving as reverse forwarders to the old table. Because we are |
391 |
|
|
* using power-of-two expansion, the elements from each bin must |
392 |
|
|
* either stay at same index, or move with a power of two |
393 |
|
|
* offset. We eliminate unnecessary node creation by catching |
394 |
|
|
* cases where old nodes can be reused because their next fields |
395 |
|
|
* won't change. On average, only about one-sixth of them need |
396 |
|
|
* cloning when a table doubles. The nodes they replace will be |
397 |
|
|
* garbage collectable as soon as they are no longer referenced by |
398 |
|
|
* any reader thread that may be in the midst of concurrently |
399 |
|
|
* traversing table. Upon transfer, the old table bin contains |
400 |
|
|
* only a special forwarding node (with hash field "MOVED") that |
401 |
|
|
* contains the next table as its key. On encountering a |
402 |
|
|
* forwarding node, access and update operations restart, using |
403 |
|
|
* the new table. |
404 |
|
|
* |
405 |
|
|
* Each bin transfer requires its bin lock, which can stall |
406 |
|
|
* waiting for locks while resizing. However, because other |
407 |
|
|
* threads can join in and help resize rather than contend for |
408 |
|
|
* locks, average aggregate waits become shorter as resizing |
409 |
|
|
* progresses. The transfer operation must also ensure that all |
410 |
|
|
* accessible bins in both the old and new table are usable by any |
411 |
|
|
* traversal. This is arranged by proceeding from the last bin |
412 |
|
|
* (table.length - 1) up towards the first. Upon seeing a |
413 |
|
|
* forwarding node, traversals (see class Traverser) arrange to |
414 |
|
|
* move to the new table without revisiting nodes. However, to |
415 |
|
|
* ensure that no intervening nodes are skipped, bin splitting can |
416 |
|
|
* only begin after the associated reverse-forwarders are in |
417 |
|
|
* place. |
418 |
dl |
1.14 |
* |
419 |
dl |
1.24 |
* The traversal scheme also applies to partial traversals of |
420 |
dl |
1.52 |
* ranges of bins (via an alternate Traverser constructor) |
421 |
dl |
1.41 |
* to support partitioned aggregate operations. Also, read-only |
422 |
|
|
* operations give up if ever forwarded to a null table, which |
423 |
|
|
* provides support for shutdown-style clearing, which is also not |
424 |
|
|
* currently implemented. |
425 |
dl |
1.14 |
* |
426 |
|
|
* Lazy table initialization minimizes footprint until first use, |
427 |
|
|
* and also avoids resizings when the first operation is from a |
428 |
|
|
* putAll, constructor with map argument, or deserialization. |
429 |
dl |
1.24 |
* These cases attempt to override the initial capacity settings, |
430 |
|
|
* but harmlessly fail to take effect in cases of races. |
431 |
dl |
1.1 |
* |
432 |
dl |
1.82 |
* The element count is maintained using a specialization of |
433 |
|
|
* LongAdder. We need to incorporate a specialization rather than |
434 |
|
|
* just use a LongAdder in order to access implicit |
435 |
|
|
* contention-sensing that leads to creation of multiple |
436 |
|
|
* CounterCells. The counter mechanics avoid contention on |
437 |
|
|
* updates but can encounter cache thrashing if read too |
438 |
|
|
* frequently during concurrent access. To avoid reading so often, |
439 |
|
|
* resizing under contention is attempted only upon adding to a |
440 |
|
|
* bin already holding two or more nodes. Under uniform hash |
441 |
|
|
* distributions, the probability of this occurring at threshold |
442 |
|
|
* is around 13%, meaning that only about 1 in 8 puts check |
443 |
dl |
1.102 |
* threshold (and after resizing, many fewer do so). |
444 |
|
|
* |
445 |
|
|
* TreeBins use a special form of comparison for search and |
446 |
|
|
* related operations (which is the main reason we cannot use |
447 |
|
|
* existing collections such as TreeMaps). TreeBins contain |
448 |
|
|
* Comparable elements, but may contain others, as well as |
449 |
|
|
* elements that are Comparable but not necessarily Comparable |
450 |
|
|
* for the same T, so we cannot invoke compareTo among them. To |
451 |
|
|
* handle this, the tree is ordered primarily by hash value, then |
452 |
|
|
* by Comparable.compareTo order if applicable. On lookup at a |
453 |
|
|
* node, if elements are not comparable or compare as 0 then both |
454 |
|
|
* left and right children may need to be searched in the case of |
455 |
|
|
* tied hash values. (This corresponds to the full list search |
456 |
|
|
* that would be necessary if all elements were non-Comparable and |
457 |
|
|
* had tied hashes.) The red-black balancing code is updated from |
458 |
|
|
* pre-jdk-collections |
459 |
|
|
* (http://gee.cs.oswego.edu/dl/classes/collections/RBCell.java) |
460 |
|
|
* based in turn on Cormen, Leiserson, and Rivest "Introduction to |
461 |
|
|
* Algorithms" (CLR). |
462 |
|
|
* |
463 |
|
|
* TreeBins also require an additional locking mechanism. While |
464 |
|
|
* list traversal is always possible by readers even during |
465 |
|
|
* updates, tree traversal is not, mainly beause of tree-rotations |
466 |
|
|
* that may change the root node and/or its linkages. TreeBins |
467 |
|
|
* include a simple read-write lock mechanism parasitic on the |
468 |
|
|
* main bin-synchronization strategy: Structural adjustments |
469 |
|
|
* associated with an insertion or removal are already bin-locked |
470 |
|
|
* (and so cannot conflict with other writers) but must wait for |
471 |
|
|
* ongoing readers to finish. Since there can be only one such |
472 |
|
|
* waiter, we use a simple scheme using a single "waiter" field to |
473 |
|
|
* block writers. However, readers need never block. If the root |
474 |
|
|
* lock is held, they proceed along the slow traversal path (via |
475 |
|
|
* next-pointers) until the lock becomes available or the list is |
476 |
|
|
* exhausted, whichever comes first. These cases are not fast, but |
477 |
|
|
* maximize aggregate expected throughput. |
478 |
dl |
1.14 |
* |
479 |
|
|
* Maintaining API and serialization compatibility with previous |
480 |
|
|
* versions of this class introduces several oddities. Mainly: We |
481 |
|
|
* leave untouched but unused constructor arguments refering to |
482 |
dl |
1.24 |
* concurrencyLevel. We accept a loadFactor constructor argument, |
483 |
|
|
* but apply it only to initial table capacity (which is the only |
484 |
|
|
* time that we can guarantee to honor it.) We also declare an |
485 |
|
|
* unused "Segment" class that is instantiated in minimal form |
486 |
|
|
* only when serializing. |
487 |
dl |
1.102 |
* |
488 |
|
|
* This file is organized to make things a little easier to follow |
489 |
|
|
* while reading than they might otherwise: First the main static |
490 |
|
|
* declarations and utilities, then fields, then main public |
491 |
|
|
* methods (with a few factorings of multiple public methods into |
492 |
|
|
* internal ones), then sizing methods, trees, traversers, and |
493 |
|
|
* bulk operations. |
494 |
dl |
1.1 |
*/ |
495 |
|
|
|
496 |
|
|
/* ---------------- Constants -------------- */ |
497 |
|
|
|
498 |
|
|
/** |
499 |
dl |
1.16 |
* The largest possible table capacity. This value must be |
500 |
|
|
* exactly 1<<30 to stay within Java array allocation and indexing |
501 |
dl |
1.24 |
* bounds for power of two table sizes, and is further required |
502 |
|
|
* because the top two bits of 32bit hash fields are used for |
503 |
|
|
* control purposes. |
504 |
dl |
1.1 |
*/ |
505 |
dl |
1.14 |
private static final int MAXIMUM_CAPACITY = 1 << 30; |
506 |
dl |
1.1 |
|
507 |
|
|
/** |
508 |
dl |
1.14 |
* The default initial table capacity. Must be a power of 2 |
509 |
|
|
* (i.e., at least 1) and at most MAXIMUM_CAPACITY. |
510 |
dl |
1.1 |
*/ |
511 |
dl |
1.14 |
private static final int DEFAULT_CAPACITY = 16; |
512 |
dl |
1.1 |
|
513 |
|
|
/** |
514 |
dl |
1.24 |
* The largest possible (non-power of two) array size. |
515 |
|
|
* Needed by toArray and related methods. |
516 |
|
|
*/ |
517 |
|
|
static final int MAX_ARRAY_SIZE = Integer.MAX_VALUE - 8; |
518 |
|
|
|
519 |
|
|
/** |
520 |
|
|
* The default concurrency level for this table. Unused but |
521 |
|
|
* defined for compatibility with previous versions of this class. |
522 |
|
|
*/ |
523 |
|
|
private static final int DEFAULT_CONCURRENCY_LEVEL = 16; |
524 |
|
|
|
525 |
|
|
/** |
526 |
dl |
1.16 |
* The load factor for this table. Overrides of this value in |
527 |
|
|
* constructors affect only the initial table capacity. The |
528 |
dl |
1.24 |
* actual floating point value isn't normally used -- it is |
529 |
|
|
* simpler to use expressions such as {@code n - (n >>> 2)} for |
530 |
|
|
* the associated resizing threshold. |
531 |
dl |
1.1 |
*/ |
532 |
dl |
1.16 |
private static final float LOAD_FACTOR = 0.75f; |
533 |
dl |
1.1 |
|
534 |
|
|
/** |
535 |
dl |
1.38 |
* The bin count threshold for using a tree rather than list for a |
536 |
dl |
1.102 |
* bin. Bins are converted to trees when adding an element to a |
537 |
|
|
* bin with at least this many nodes. The value must be greater |
538 |
|
|
* than 2, and should be at least 8 to mesh with assumptions in |
539 |
|
|
* tree removal about conversion back to plain bins upon |
540 |
|
|
* shrinkage. |
541 |
|
|
*/ |
542 |
|
|
static final int TREEIFY_THRESHOLD = 8; |
543 |
|
|
|
544 |
|
|
/** |
545 |
|
|
* The bin count threshold for untreeifying a (split) bin during a |
546 |
|
|
* resize operation. Should be less than TREEIFY_THRESHOLD, and at |
547 |
|
|
* most 6 to mesh with shrinkage detection under removal. |
548 |
|
|
*/ |
549 |
|
|
static final int UNTREEIFY_THRESHOLD = 6; |
550 |
|
|
|
551 |
|
|
/** |
552 |
|
|
* The smallest table capacity for which bins may be treeified. |
553 |
|
|
* (Otherwise the table is resized if too many nodes in a bin.) |
554 |
|
|
* The value should be at least 4 * TREEIFY_THRESHOLD to avoid |
555 |
|
|
* conflicts between resizing and treeification thresholds. |
556 |
dl |
1.38 |
*/ |
557 |
dl |
1.102 |
static final int MIN_TREEIFY_CAPACITY = 64; |
558 |
dl |
1.38 |
|
559 |
dl |
1.82 |
/** |
560 |
|
|
* Minimum number of rebinnings per transfer step. Ranges are |
561 |
|
|
* subdivided to allow multiple resizer threads. This value |
562 |
|
|
* serves as a lower bound to avoid resizers encountering |
563 |
|
|
* excessive memory contention. The value should be at least |
564 |
|
|
* DEFAULT_CAPACITY. |
565 |
|
|
*/ |
566 |
|
|
private static final int MIN_TRANSFER_STRIDE = 16; |
567 |
|
|
|
568 |
dl |
1.24 |
/* |
569 |
dl |
1.82 |
* Encodings for Node hash fields. See above for explanation. |
570 |
dl |
1.1 |
*/ |
571 |
dl |
1.102 |
static final int MOVED = 0x8fffffff; // (-1) hash for forwarding nodes |
572 |
|
|
static final int TREEBIN = 0x80000000; // hash for heads of treea |
573 |
|
|
static final int RESERVED = 0x80000001; // hash for transient reservations |
574 |
dl |
1.82 |
static final int HASH_BITS = 0x7fffffff; // usable bits of normal node hash |
575 |
|
|
|
576 |
|
|
/** Number of CPUS, to place bounds on some sizings */ |
577 |
|
|
static final int NCPU = Runtime.getRuntime().availableProcessors(); |
578 |
|
|
|
579 |
dl |
1.102 |
/** For serialization compatibility. */ |
580 |
|
|
private static final ObjectStreamField[] serialPersistentFields = { |
581 |
|
|
new ObjectStreamField("segments", Segment[].class), |
582 |
|
|
new ObjectStreamField("segmentMask", Integer.TYPE), |
583 |
|
|
new ObjectStreamField("segmentShift", Integer.TYPE) |
584 |
|
|
}; |
585 |
|
|
|
586 |
|
|
/* ---------------- Nodes -------------- */ |
587 |
|
|
|
588 |
|
|
/** |
589 |
|
|
* Key-value entry. This class is never exported out as a |
590 |
|
|
* user-mutable Map.Entry (i.e., one supporting setValue; see |
591 |
|
|
* MapEntry below), but can be used for read-only traversals used |
592 |
|
|
* in bulk tasks. Subclasses of Node with a negativehash field |
593 |
|
|
* are special, and contain null keys and values (but are never |
594 |
|
|
* exported). Otherwise, keys and vals are never null. |
595 |
|
|
*/ |
596 |
|
|
static class Node<K,V> implements Map.Entry<K,V> { |
597 |
|
|
final int hash; |
598 |
|
|
final K key; |
599 |
|
|
volatile V val; |
600 |
|
|
Node<K,V> next; |
601 |
|
|
|
602 |
|
|
Node(int hash, K key, V val, Node<K,V> next) { |
603 |
|
|
this.hash = hash; |
604 |
|
|
this.key = key; |
605 |
|
|
this.val = val; |
606 |
|
|
this.next = next; |
607 |
|
|
} |
608 |
|
|
|
609 |
|
|
public final K getKey() { return key; } |
610 |
|
|
public final V getValue() { return val; } |
611 |
|
|
public final int hashCode() { return key.hashCode() ^ val.hashCode(); } |
612 |
|
|
public final String toString(){ return key + "=" + val; } |
613 |
|
|
public final V setValue(V value) { |
614 |
|
|
throw new UnsupportedOperationException(); |
615 |
|
|
} |
616 |
dl |
1.82 |
|
617 |
dl |
1.102 |
public final boolean equals(Object o) { |
618 |
|
|
Object k, v, u; Map.Entry<?,?> e; |
619 |
|
|
return ((o instanceof Map.Entry) && |
620 |
|
|
(k = (e = (Map.Entry<?,?>)o).getKey()) != null && |
621 |
|
|
(v = e.getValue()) != null && |
622 |
|
|
(k == key || k.equals(key)) && |
623 |
|
|
(v == (u = val) || v.equals(u))); |
624 |
|
|
} |
625 |
dl |
1.82 |
|
626 |
dl |
1.102 |
/** |
627 |
|
|
* Virtualized support for map.get(); overridden in subclasses. |
628 |
|
|
*/ |
629 |
|
|
Node<K,V> find(int h, Object k) { |
630 |
|
|
Node<K,V> e = this; |
631 |
|
|
if (k != null) { |
632 |
|
|
do { |
633 |
|
|
K ek; |
634 |
|
|
if (e.hash == h && |
635 |
|
|
((ek = e.key) == k || (ek != null && k.equals(ek)))) |
636 |
|
|
return e; |
637 |
|
|
} while ((e = e.next) != null); |
638 |
|
|
} |
639 |
|
|
return null; |
640 |
|
|
} |
641 |
dl |
1.82 |
} |
642 |
|
|
|
643 |
dl |
1.102 |
/* ---------------- Static utilities -------------- */ |
644 |
|
|
|
645 |
dl |
1.82 |
/** |
646 |
dl |
1.102 |
* Spreads (XORs) higher bits of hash to lower and also forces top |
647 |
|
|
* bit to 0. Because the table uses power-of-two masking, sets of |
648 |
|
|
* hashes that vary only in bits above the current mask will |
649 |
|
|
* always collide. (Among known examples are sets of Float keys |
650 |
|
|
* holding consecutive whole numbers in small tables.) So we |
651 |
|
|
* apply a transform that spreads the impact of higher bits |
652 |
|
|
* downward. There is a tradeoff between speed, utility, and |
653 |
|
|
* quality of bit-spreading. Because many common sets of hashes |
654 |
|
|
* are already reasonably distributed (so don't benefit from |
655 |
|
|
* spreading), and because we use trees to handle large sets of |
656 |
|
|
* collisions in bins, we just XOR some shifted bits in the |
657 |
|
|
* cheapest possible way to reduce systematic lossage, as well as |
658 |
|
|
* to incorporate impact of the highest bits that would otherwise |
659 |
|
|
* never be used in index calculations because of table bounds. |
660 |
dl |
1.82 |
*/ |
661 |
dl |
1.102 |
static final int spread(int h) { |
662 |
|
|
return (h ^ (h >>> 16)) & HASH_BITS; |
663 |
dl |
1.82 |
} |
664 |
|
|
|
665 |
|
|
/** |
666 |
dl |
1.102 |
* Returns a power of two table size for the given desired capacity. |
667 |
|
|
* See Hackers Delight, sec 3.2 |
668 |
dl |
1.82 |
*/ |
669 |
dl |
1.102 |
private static final int tableSizeFor(int c) { |
670 |
|
|
int n = c - 1; |
671 |
|
|
n |= n >>> 1; |
672 |
|
|
n |= n >>> 2; |
673 |
|
|
n |= n >>> 4; |
674 |
|
|
n |= n >>> 8; |
675 |
|
|
n |= n >>> 16; |
676 |
|
|
return (n < 0) ? 1 : (n >= MAXIMUM_CAPACITY) ? MAXIMUM_CAPACITY : n + 1; |
677 |
|
|
} |
678 |
dl |
1.82 |
|
679 |
|
|
/** |
680 |
dl |
1.102 |
* Returns x's Class if it is of the form "class C implements |
681 |
|
|
* Comparable<C>", else null. |
682 |
dl |
1.82 |
*/ |
683 |
dl |
1.102 |
static Class<?> comparableClassFor(Object x) { |
684 |
|
|
if (x instanceof Comparable) { |
685 |
|
|
Class<?> c; Type[] ts, as; Type t; ParameterizedType p; |
686 |
|
|
if ((c = x.getClass()) == String.class) // bypass checks |
687 |
|
|
return c; |
688 |
|
|
if ((ts = c.getGenericInterfaces()) != null) { |
689 |
|
|
for (int i = 0; i < ts.length; ++i) { |
690 |
|
|
if (((t = ts[i]) instanceof ParameterizedType) && |
691 |
|
|
((p = (ParameterizedType)t).getRawType() == |
692 |
|
|
Comparable.class) && |
693 |
|
|
(as = p.getActualTypeArguments()) != null && |
694 |
|
|
as.length == 1 && as[0] == c) // type arg is c |
695 |
|
|
return c; |
696 |
|
|
} |
697 |
|
|
} |
698 |
|
|
} |
699 |
|
|
return null; |
700 |
|
|
} |
701 |
dl |
1.82 |
|
702 |
|
|
/** |
703 |
dl |
1.102 |
* Returns k.compareTo(x) if x matches kc (k's screened comparable |
704 |
|
|
* class), else 0. |
705 |
dl |
1.82 |
*/ |
706 |
dl |
1.102 |
@SuppressWarnings({"rawtypes","unchecked"}) // for cast to Comparable |
707 |
|
|
static int compareComparables(Class<?> kc, Object k, Object x) { |
708 |
|
|
return (x == null || x.getClass() != kc ? 0 : |
709 |
|
|
((Comparable)k).compareTo(x)); |
710 |
|
|
} |
711 |
|
|
|
712 |
|
|
/* ---------------- Table element access -------------- */ |
713 |
|
|
|
714 |
|
|
/* |
715 |
|
|
* Volatile access methods are used for table elements as well as |
716 |
|
|
* elements of in-progress next table while resizing. All uses of |
717 |
|
|
* the tab arguments must be null checked by callers. All callers |
718 |
|
|
* also paranoically precheck that tab's length is not zero (or an |
719 |
|
|
* equivalent check), thus ensuring that any index argument taking |
720 |
|
|
* the form of a hash value anded with (length - 1) is a valid |
721 |
|
|
* index. Note that, to be correct wrt arbitrary concurrency |
722 |
|
|
* errors by users, these checks must operate on local variables, |
723 |
|
|
* which accounts for some odd-looking inline assignments below. |
724 |
|
|
* Note that calls to setTabAt always occur within locked regions, |
725 |
|
|
* and so do not need full volatile semantics, but still require |
726 |
|
|
* ordering to maintain concurrent readability. |
727 |
|
|
*/ |
728 |
|
|
|
729 |
|
|
@SuppressWarnings("unchecked") |
730 |
|
|
static final <K,V> Node<K,V> tabAt(Node<K,V>[] tab, int i) { |
731 |
|
|
return (Node<K,V>)U.getObjectVolatile(tab, ((long)i << ASHIFT) + ABASE); |
732 |
|
|
} |
733 |
dl |
1.24 |
|
734 |
dl |
1.102 |
static final <K,V> boolean casTabAt(Node<K,V>[] tab, int i, |
735 |
|
|
Node<K,V> c, Node<K,V> v) { |
736 |
|
|
return U.compareAndSwapObject(tab, ((long)i << ASHIFT) + ABASE, c, v); |
737 |
|
|
} |
738 |
jsr166 |
1.103 |
|
739 |
dl |
1.102 |
static final <K,V> void setTabAt(Node<K,V>[] tab, int i, Node<K,V> v) { |
740 |
|
|
U.putOrderedObject(tab, ((long)i << ASHIFT) + ABASE, v); |
741 |
|
|
} |
742 |
jsr166 |
1.103 |
|
743 |
dl |
1.24 |
/* ---------------- Fields -------------- */ |
744 |
|
|
|
745 |
|
|
/** |
746 |
|
|
* The array of bins. Lazily initialized upon first insertion. |
747 |
|
|
* Size is always a power of two. Accessed directly by iterators. |
748 |
|
|
*/ |
749 |
dl |
1.102 |
transient volatile Node<K,V>[] table; |
750 |
dl |
1.14 |
|
751 |
dl |
1.16 |
/** |
752 |
dl |
1.82 |
* The next table to use; non-null only while resizing. |
753 |
|
|
*/ |
754 |
dl |
1.102 |
private transient volatile Node<K,V>[] nextTable; |
755 |
dl |
1.82 |
|
756 |
|
|
/** |
757 |
|
|
* Base counter value, used mainly when there is no contention, |
758 |
|
|
* but also as a fallback during table initialization |
759 |
|
|
* races. Updated via CAS. |
760 |
dl |
1.16 |
*/ |
761 |
dl |
1.82 |
private transient volatile long baseCount; |
762 |
dl |
1.24 |
|
763 |
|
|
/** |
764 |
|
|
* Table initialization and resizing control. When negative, the |
765 |
dl |
1.82 |
* table is being initialized or resized: -1 for initialization, |
766 |
|
|
* else -(1 + the number of active resizing threads). Otherwise, |
767 |
|
|
* when table is null, holds the initial table size to use upon |
768 |
|
|
* creation, or 0 for default. After initialization, holds the |
769 |
|
|
* next element count value upon which to resize the table. |
770 |
dl |
1.24 |
*/ |
771 |
|
|
private transient volatile int sizeCtl; |
772 |
|
|
|
773 |
dl |
1.82 |
/** |
774 |
|
|
* The next table index (plus one) to split while resizing. |
775 |
|
|
*/ |
776 |
|
|
private transient volatile int transferIndex; |
777 |
|
|
|
778 |
|
|
/** |
779 |
|
|
* The least available table index to split while resizing. |
780 |
|
|
*/ |
781 |
|
|
private transient volatile int transferOrigin; |
782 |
|
|
|
783 |
|
|
/** |
784 |
dl |
1.102 |
* Spinlock (locked via CAS) used when resizing and/or creating CounterCells. |
785 |
dl |
1.82 |
*/ |
786 |
dl |
1.102 |
private transient volatile int cellsBusy; |
787 |
dl |
1.82 |
|
788 |
|
|
/** |
789 |
|
|
* Table of counter cells. When non-null, size is a power of 2. |
790 |
|
|
*/ |
791 |
|
|
private transient volatile CounterCell[] counterCells; |
792 |
|
|
|
793 |
dl |
1.24 |
// views |
794 |
dl |
1.70 |
private transient KeySetView<K,V> keySet; |
795 |
dl |
1.75 |
private transient ValuesView<K,V> values; |
796 |
|
|
private transient EntrySetView<K,V> entrySet; |
797 |
dl |
1.24 |
|
798 |
dl |
1.16 |
|
799 |
dl |
1.102 |
/* ---------------- Public operations -------------- */ |
800 |
dl |
1.38 |
|
801 |
dl |
1.102 |
/** |
802 |
|
|
* Creates a new, empty map with the default initial table size (16). |
803 |
|
|
*/ |
804 |
|
|
public ConcurrentHashMapV8() { |
805 |
dl |
1.38 |
} |
806 |
|
|
|
807 |
dl |
1.102 |
/** |
808 |
|
|
* Creates a new, empty map with an initial table size |
809 |
|
|
* accommodating the specified number of elements without the need |
810 |
|
|
* to dynamically resize. |
811 |
|
|
* |
812 |
|
|
* @param initialCapacity The implementation performs internal |
813 |
|
|
* sizing to accommodate this many elements. |
814 |
|
|
* @throws IllegalArgumentException if the initial capacity of |
815 |
|
|
* elements is negative |
816 |
|
|
*/ |
817 |
|
|
public ConcurrentHashMapV8(int initialCapacity) { |
818 |
|
|
if (initialCapacity < 0) |
819 |
|
|
throw new IllegalArgumentException(); |
820 |
|
|
int cap = ((initialCapacity >= (MAXIMUM_CAPACITY >>> 1)) ? |
821 |
|
|
MAXIMUM_CAPACITY : |
822 |
|
|
tableSizeFor(initialCapacity + (initialCapacity >>> 1) + 1)); |
823 |
|
|
this.sizeCtl = cap; |
824 |
dl |
1.38 |
} |
825 |
|
|
|
826 |
dl |
1.102 |
/** |
827 |
|
|
* Creates a new map with the same mappings as the given map. |
828 |
|
|
* |
829 |
|
|
* @param m the map |
830 |
|
|
*/ |
831 |
|
|
public ConcurrentHashMapV8(Map<? extends K, ? extends V> m) { |
832 |
|
|
this.sizeCtl = DEFAULT_CAPACITY; |
833 |
|
|
putAll(m); |
834 |
dl |
1.38 |
} |
835 |
|
|
|
836 |
dl |
1.102 |
/** |
837 |
|
|
* Creates a new, empty map with an initial table size based on |
838 |
|
|
* the given number of elements ({@code initialCapacity}) and |
839 |
|
|
* initial table density ({@code loadFactor}). |
840 |
|
|
* |
841 |
|
|
* @param initialCapacity the initial capacity. The implementation |
842 |
|
|
* performs internal sizing to accommodate this many elements, |
843 |
|
|
* given the specified load factor. |
844 |
|
|
* @param loadFactor the load factor (table density) for |
845 |
|
|
* establishing the initial table size |
846 |
|
|
* @throws IllegalArgumentException if the initial capacity of |
847 |
|
|
* elements is negative or the load factor is nonpositive |
848 |
|
|
* |
849 |
|
|
* @since 1.6 |
850 |
|
|
*/ |
851 |
|
|
public ConcurrentHashMapV8(int initialCapacity, float loadFactor) { |
852 |
|
|
this(initialCapacity, loadFactor, 1); |
853 |
|
|
} |
854 |
dl |
1.1 |
|
855 |
|
|
/** |
856 |
dl |
1.102 |
* Creates a new, empty map with an initial table size based on |
857 |
|
|
* the given number of elements ({@code initialCapacity}), table |
858 |
|
|
* density ({@code loadFactor}), and number of concurrently |
859 |
|
|
* updating threads ({@code concurrencyLevel}). |
860 |
|
|
* |
861 |
|
|
* @param initialCapacity the initial capacity. The implementation |
862 |
|
|
* performs internal sizing to accommodate this many elements, |
863 |
|
|
* given the specified load factor. |
864 |
|
|
* @param loadFactor the load factor (table density) for |
865 |
|
|
* establishing the initial table size |
866 |
|
|
* @param concurrencyLevel the estimated number of concurrently |
867 |
|
|
* updating threads. The implementation may use this value as |
868 |
|
|
* a sizing hint. |
869 |
|
|
* @throws IllegalArgumentException if the initial capacity is |
870 |
|
|
* negative or the load factor or concurrencyLevel are |
871 |
|
|
* nonpositive |
872 |
dl |
1.1 |
*/ |
873 |
dl |
1.102 |
public ConcurrentHashMapV8(int initialCapacity, |
874 |
|
|
float loadFactor, int concurrencyLevel) { |
875 |
|
|
if (!(loadFactor > 0.0f) || initialCapacity < 0 || concurrencyLevel <= 0) |
876 |
|
|
throw new IllegalArgumentException(); |
877 |
|
|
if (initialCapacity < concurrencyLevel) // Use at least as many bins |
878 |
|
|
initialCapacity = concurrencyLevel; // as estimated threads |
879 |
|
|
long size = (long)(1.0 + (long)initialCapacity / loadFactor); |
880 |
|
|
int cap = (size >= (long)MAXIMUM_CAPACITY) ? |
881 |
|
|
MAXIMUM_CAPACITY : tableSizeFor((int)size); |
882 |
|
|
this.sizeCtl = cap; |
883 |
dl |
1.24 |
} |
884 |
dl |
1.1 |
|
885 |
dl |
1.102 |
// Original (since JDK1.2) Map methods |
886 |
dl |
1.38 |
|
887 |
|
|
/** |
888 |
dl |
1.102 |
* {@inheritDoc} |
889 |
dl |
1.38 |
*/ |
890 |
dl |
1.102 |
public int size() { |
891 |
|
|
long n = sumCount(); |
892 |
|
|
return ((n < 0L) ? 0 : |
893 |
|
|
(n > (long)Integer.MAX_VALUE) ? Integer.MAX_VALUE : |
894 |
|
|
(int)n); |
895 |
dl |
1.38 |
} |
896 |
dl |
1.1 |
|
897 |
dl |
1.38 |
/** |
898 |
dl |
1.102 |
* {@inheritDoc} |
899 |
|
|
*/ |
900 |
|
|
public boolean isEmpty() { |
901 |
|
|
return sumCount() <= 0L; // ignore transient negative values |
902 |
|
|
} |
903 |
|
|
|
904 |
|
|
/** |
905 |
|
|
* Returns the value to which the specified key is mapped, |
906 |
|
|
* or {@code null} if this map contains no mapping for the key. |
907 |
dl |
1.38 |
* |
908 |
dl |
1.102 |
* <p>More formally, if this map contains a mapping from a key |
909 |
|
|
* {@code k} to a value {@code v} such that {@code key.equals(k)}, |
910 |
|
|
* then this method returns {@code v}; otherwise it returns |
911 |
|
|
* {@code null}. (There can be at most one such mapping.) |
912 |
dl |
1.38 |
* |
913 |
dl |
1.102 |
* @throws NullPointerException if the specified key is null |
914 |
dl |
1.1 |
*/ |
915 |
dl |
1.102 |
public V get(Object key) { |
916 |
|
|
Node<K,V>[] tab; Node<K,V> e, p; int n, eh; K ek; |
917 |
|
|
int h = spread(key.hashCode()); |
918 |
|
|
if ((tab = table) != null && (n = tab.length) > 0 && |
919 |
|
|
(e = tabAt(tab, (n - 1) & h)) != null) { |
920 |
|
|
if ((eh = e.hash) == h) { |
921 |
|
|
if ((ek = e.key) == key || (ek != null && key.equals(ek))) |
922 |
|
|
return e.val; |
923 |
|
|
} |
924 |
|
|
else if (eh < 0) |
925 |
|
|
return (p = e.find(h, key)) != null ? p.val : null; |
926 |
|
|
while ((e = e.next) != null) { |
927 |
|
|
if (e.hash == h && |
928 |
|
|
((ek = e.key) == key || (ek != null && key.equals(ek)))) |
929 |
|
|
return e.val; |
930 |
dl |
1.41 |
} |
931 |
|
|
} |
932 |
dl |
1.102 |
return null; |
933 |
|
|
} |
934 |
dl |
1.41 |
|
935 |
dl |
1.102 |
/** |
936 |
|
|
* Tests if the specified object is a key in this table. |
937 |
|
|
* |
938 |
|
|
* @param key possible key |
939 |
|
|
* @return {@code true} if and only if the specified object |
940 |
|
|
* is a key in this table, as determined by the |
941 |
|
|
* {@code equals} method; {@code false} otherwise |
942 |
|
|
* @throws NullPointerException if the specified key is null |
943 |
|
|
*/ |
944 |
|
|
public boolean containsKey(Object key) { |
945 |
|
|
return get(key) != null; |
946 |
|
|
} |
947 |
dl |
1.41 |
|
948 |
dl |
1.102 |
/** |
949 |
|
|
* Returns {@code true} if this map maps one or more keys to the |
950 |
|
|
* specified value. Note: This method may require a full traversal |
951 |
|
|
* of the map, and is much slower than method {@code containsKey}. |
952 |
|
|
* |
953 |
|
|
* @param value value whose presence in this map is to be tested |
954 |
|
|
* @return {@code true} if this map maps one or more keys to the |
955 |
|
|
* specified value |
956 |
|
|
* @throws NullPointerException if the specified value is null |
957 |
|
|
*/ |
958 |
|
|
public boolean containsValue(Object value) { |
959 |
|
|
if (value == null) |
960 |
|
|
throw new NullPointerException(); |
961 |
|
|
Node<K,V>[] t; |
962 |
|
|
if ((t = table) != null) { |
963 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
964 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
965 |
|
|
V v; |
966 |
|
|
if ((v = p.val) == value || (v != null && value.equals(v))) |
967 |
|
|
return true; |
968 |
dl |
1.38 |
} |
969 |
|
|
} |
970 |
dl |
1.102 |
return false; |
971 |
|
|
} |
972 |
dl |
1.38 |
|
973 |
dl |
1.102 |
/** |
974 |
|
|
* Maps the specified key to the specified value in this table. |
975 |
|
|
* Neither the key nor the value can be null. |
976 |
|
|
* |
977 |
|
|
* <p>The value can be retrieved by calling the {@code get} method |
978 |
|
|
* with a key that is equal to the original key. |
979 |
|
|
* |
980 |
|
|
* @param key key with which the specified value is to be associated |
981 |
|
|
* @param value value to be associated with the specified key |
982 |
|
|
* @return the previous value associated with {@code key}, or |
983 |
|
|
* {@code null} if there was no mapping for {@code key} |
984 |
|
|
* @throws NullPointerException if the specified key or value is null |
985 |
|
|
*/ |
986 |
|
|
public V put(K key, V value) { |
987 |
|
|
return putVal(key, value, false); |
988 |
|
|
} |
989 |
dl |
1.38 |
|
990 |
dl |
1.102 |
/** Implementation for put and putIfAbsent */ |
991 |
|
|
final V putVal(K key, V value, boolean onlyIfAbsent) { |
992 |
|
|
if (key == null || value == null) throw new NullPointerException(); |
993 |
|
|
int hash = spread(key.hashCode()); |
994 |
|
|
int binCount = 0; |
995 |
|
|
for (Node<K,V>[] tab = table;;) { |
996 |
|
|
Node<K,V> f; int n, i, fh; |
997 |
|
|
if (tab == null || (n = tab.length) == 0) |
998 |
|
|
tab = initTable(); |
999 |
|
|
else if ((f = tabAt(tab, i = (n - 1) & hash)) == null) { |
1000 |
|
|
if (casTabAt(tab, i, null, |
1001 |
|
|
new Node<K,V>(hash, key, value, null))) |
1002 |
|
|
break; // no lock when adding to empty bin |
1003 |
dl |
1.38 |
} |
1004 |
dl |
1.102 |
else if ((fh = f.hash) == MOVED) |
1005 |
|
|
tab = helpTransfer(tab, f); |
1006 |
dl |
1.38 |
else { |
1007 |
dl |
1.102 |
V oldVal = null; |
1008 |
|
|
synchronized (f) { |
1009 |
|
|
if (tabAt(tab, i) == f) { |
1010 |
|
|
if (fh >= 0) { |
1011 |
|
|
binCount = 1; |
1012 |
|
|
for (Node<K,V> e = f;; ++binCount) { |
1013 |
|
|
K ek; |
1014 |
|
|
if (e.hash == hash && |
1015 |
|
|
((ek = e.key) == key || |
1016 |
|
|
(ek != null && key.equals(ek)))) { |
1017 |
|
|
oldVal = e.val; |
1018 |
|
|
if (!onlyIfAbsent) |
1019 |
|
|
e.val = value; |
1020 |
|
|
break; |
1021 |
dl |
1.41 |
} |
1022 |
dl |
1.102 |
Node<K,V> pred = e; |
1023 |
|
|
if ((e = e.next) == null) { |
1024 |
|
|
pred.next = new Node<K,V>(hash, key, |
1025 |
|
|
value, null); |
1026 |
|
|
break; |
1027 |
dl |
1.41 |
} |
1028 |
dl |
1.38 |
} |
1029 |
|
|
} |
1030 |
dl |
1.102 |
else if (f instanceof TreeBin) { |
1031 |
|
|
Node<K,V> p; |
1032 |
|
|
binCount = 2; |
1033 |
|
|
if ((p = ((TreeBin<K,V>)f).putTreeVal(hash, key, |
1034 |
|
|
value)) != null) { |
1035 |
|
|
oldVal = p.val; |
1036 |
|
|
if (!onlyIfAbsent) |
1037 |
|
|
p.val = value; |
1038 |
dl |
1.38 |
} |
1039 |
|
|
} |
1040 |
|
|
} |
1041 |
|
|
} |
1042 |
dl |
1.102 |
if (binCount != 0) { |
1043 |
|
|
if (binCount >= TREEIFY_THRESHOLD) |
1044 |
|
|
treeifyBin(tab, i); |
1045 |
|
|
if (oldVal != null) |
1046 |
|
|
return oldVal; |
1047 |
|
|
break; |
1048 |
|
|
} |
1049 |
dl |
1.41 |
} |
1050 |
dl |
1.38 |
} |
1051 |
dl |
1.102 |
addCount(1L, binCount); |
1052 |
|
|
return null; |
1053 |
dl |
1.1 |
} |
1054 |
|
|
|
1055 |
dl |
1.14 |
/** |
1056 |
dl |
1.102 |
* Copies all of the mappings from the specified map to this one. |
1057 |
|
|
* These mappings replace any mappings that this map had for any of the |
1058 |
|
|
* keys currently in the specified map. |
1059 |
|
|
* |
1060 |
|
|
* @param m mappings to be stored in this map |
1061 |
dl |
1.14 |
*/ |
1062 |
dl |
1.102 |
public void putAll(Map<? extends K, ? extends V> m) { |
1063 |
|
|
tryPresize(m.size()); |
1064 |
|
|
for (Map.Entry<? extends K, ? extends V> e : m.entrySet()) |
1065 |
|
|
putVal(e.getKey(), e.getValue(), false); |
1066 |
dl |
1.38 |
} |
1067 |
|
|
|
1068 |
|
|
/** |
1069 |
dl |
1.102 |
* Removes the key (and its corresponding value) from this map. |
1070 |
|
|
* This method does nothing if the key is not in the map. |
1071 |
|
|
* |
1072 |
|
|
* @param key the key that needs to be removed |
1073 |
|
|
* @return the previous value associated with {@code key}, or |
1074 |
|
|
* {@code null} if there was no mapping for {@code key} |
1075 |
|
|
* @throws NullPointerException if the specified key is null |
1076 |
dl |
1.38 |
*/ |
1077 |
dl |
1.102 |
public V remove(Object key) { |
1078 |
|
|
return replaceNode(key, null, null); |
1079 |
dl |
1.1 |
} |
1080 |
|
|
|
1081 |
dl |
1.27 |
/** |
1082 |
|
|
* Implementation for the four public remove/replace methods: |
1083 |
|
|
* Replaces node value with v, conditional upon match of cv if |
1084 |
|
|
* non-null. If resulting value is null, delete. |
1085 |
|
|
*/ |
1086 |
dl |
1.102 |
final V replaceNode(Object key, V value, Object cv) { |
1087 |
|
|
int hash = spread(key.hashCode()); |
1088 |
|
|
for (Node<K,V>[] tab = table;;) { |
1089 |
|
|
Node<K,V> f; int n, i, fh; |
1090 |
|
|
if (tab == null || (n = tab.length) == 0 || |
1091 |
|
|
(f = tabAt(tab, i = (n - 1) & hash)) == null) |
1092 |
dl |
1.27 |
break; |
1093 |
dl |
1.102 |
else if ((fh = f.hash) == MOVED) |
1094 |
|
|
tab = helpTransfer(tab, f); |
1095 |
|
|
else { |
1096 |
|
|
V oldVal = null; |
1097 |
|
|
boolean validated = false; |
1098 |
|
|
synchronized (f) { |
1099 |
|
|
if (tabAt(tab, i) == f) { |
1100 |
|
|
if (fh >= 0) { |
1101 |
|
|
validated = true; |
1102 |
|
|
for (Node<K,V> e = f, pred = null;;) { |
1103 |
|
|
K ek; |
1104 |
|
|
if (e.hash == hash && |
1105 |
|
|
((ek = e.key) == key || |
1106 |
|
|
(ek != null && key.equals(ek)))) { |
1107 |
|
|
V ev = e.val; |
1108 |
|
|
if (cv == null || cv == ev || |
1109 |
|
|
(ev != null && cv.equals(ev))) { |
1110 |
|
|
oldVal = ev; |
1111 |
|
|
if (value != null) |
1112 |
|
|
e.val = value; |
1113 |
|
|
else if (pred != null) |
1114 |
|
|
pred.next = e.next; |
1115 |
|
|
else |
1116 |
|
|
setTabAt(tab, i, e.next); |
1117 |
|
|
} |
1118 |
|
|
break; |
1119 |
|
|
} |
1120 |
|
|
pred = e; |
1121 |
|
|
if ((e = e.next) == null) |
1122 |
|
|
break; |
1123 |
|
|
} |
1124 |
|
|
} |
1125 |
|
|
else if (f instanceof TreeBin) { |
1126 |
dl |
1.38 |
validated = true; |
1127 |
dl |
1.102 |
TreeBin<K,V> t = (TreeBin<K,V>)f; |
1128 |
|
|
TreeNode<K,V> r, p; |
1129 |
|
|
if ((r = t.root) != null && |
1130 |
|
|
(p = r.findTreeNode(hash, key, null)) != null) { |
1131 |
dl |
1.84 |
V pv = p.val; |
1132 |
dl |
1.102 |
if (cv == null || cv == pv || |
1133 |
|
|
(pv != null && cv.equals(pv))) { |
1134 |
dl |
1.38 |
oldVal = pv; |
1135 |
dl |
1.102 |
if (value != null) |
1136 |
|
|
p.val = value; |
1137 |
|
|
else if (t.removeTreeNode(p)) |
1138 |
|
|
setTabAt(tab, i, untreeify(t.first)); |
1139 |
dl |
1.38 |
} |
1140 |
|
|
} |
1141 |
|
|
} |
1142 |
|
|
} |
1143 |
dl |
1.102 |
} |
1144 |
|
|
if (validated) { |
1145 |
|
|
if (oldVal != null) { |
1146 |
|
|
if (value == null) |
1147 |
dl |
1.82 |
addCount(-1L, -1); |
1148 |
dl |
1.102 |
return oldVal; |
1149 |
dl |
1.38 |
} |
1150 |
dl |
1.102 |
break; |
1151 |
dl |
1.38 |
} |
1152 |
|
|
} |
1153 |
dl |
1.102 |
} |
1154 |
|
|
return null; |
1155 |
|
|
} |
1156 |
|
|
|
1157 |
|
|
/** |
1158 |
|
|
* Removes all of the mappings from this map. |
1159 |
|
|
*/ |
1160 |
|
|
public void clear() { |
1161 |
|
|
long delta = 0L; // negative number of deletions |
1162 |
|
|
int i = 0; |
1163 |
|
|
Node<K,V>[] tab = table; |
1164 |
|
|
while (tab != null && i < tab.length) { |
1165 |
|
|
int fh; |
1166 |
|
|
Node<K,V> f = tabAt(tab, i); |
1167 |
|
|
if (f == null) |
1168 |
|
|
++i; |
1169 |
|
|
else if ((fh = f.hash) == MOVED) { |
1170 |
|
|
tab = helpTransfer(tab, f); |
1171 |
|
|
i = 0; // restart |
1172 |
|
|
} |
1173 |
dl |
1.82 |
else { |
1174 |
jsr166 |
1.83 |
synchronized (f) { |
1175 |
dl |
1.27 |
if (tabAt(tab, i) == f) { |
1176 |
dl |
1.102 |
Node<K,V> p = (fh >= 0 ? f : |
1177 |
|
|
(f instanceof TreeBin) ? |
1178 |
|
|
((TreeBin<K,V>)f).first : null); |
1179 |
|
|
while (p != null) { |
1180 |
|
|
--delta; |
1181 |
|
|
p = p.next; |
1182 |
dl |
1.27 |
} |
1183 |
dl |
1.102 |
setTabAt(tab, i++, null); |
1184 |
dl |
1.27 |
} |
1185 |
|
|
} |
1186 |
|
|
} |
1187 |
|
|
} |
1188 |
dl |
1.102 |
if (delta != 0L) |
1189 |
|
|
addCount(delta, -1); |
1190 |
|
|
} |
1191 |
|
|
|
1192 |
|
|
/** |
1193 |
|
|
* Returns a {@link Set} view of the keys contained in this map. |
1194 |
|
|
* The set is backed by the map, so changes to the map are |
1195 |
|
|
* reflected in the set, and vice-versa. The set supports element |
1196 |
|
|
* removal, which removes the corresponding mapping from this map, |
1197 |
|
|
* via the {@code Iterator.remove}, {@code Set.remove}, |
1198 |
|
|
* {@code removeAll}, {@code retainAll}, and {@code clear} |
1199 |
|
|
* operations. It does not support the {@code add} or |
1200 |
|
|
* {@code addAll} operations. |
1201 |
|
|
* |
1202 |
|
|
* <p>The view's {@code iterator} is a "weakly consistent" iterator |
1203 |
|
|
* that will never throw {@link ConcurrentModificationException}, |
1204 |
|
|
* and guarantees to traverse elements as they existed upon |
1205 |
|
|
* construction of the iterator, and may (but is not guaranteed to) |
1206 |
|
|
* reflect any modifications subsequent to construction. |
1207 |
|
|
* |
1208 |
|
|
* @return the set view |
1209 |
|
|
*/ |
1210 |
|
|
public KeySetView<K,V> keySet() { |
1211 |
|
|
KeySetView<K,V> ks; |
1212 |
|
|
return (ks = keySet) != null ? ks : (keySet = new KeySetView<K,V>(this, null)); |
1213 |
|
|
} |
1214 |
|
|
|
1215 |
|
|
/** |
1216 |
|
|
* Returns a {@link Collection} view of the values contained in this map. |
1217 |
|
|
* The collection is backed by the map, so changes to the map are |
1218 |
|
|
* reflected in the collection, and vice-versa. The collection |
1219 |
|
|
* supports element removal, which removes the corresponding |
1220 |
|
|
* mapping from this map, via the {@code Iterator.remove}, |
1221 |
|
|
* {@code Collection.remove}, {@code removeAll}, |
1222 |
|
|
* {@code retainAll}, and {@code clear} operations. It does not |
1223 |
|
|
* support the {@code add} or {@code addAll} operations. |
1224 |
|
|
* |
1225 |
|
|
* <p>The view's {@code iterator} is a "weakly consistent" iterator |
1226 |
|
|
* that will never throw {@link ConcurrentModificationException}, |
1227 |
|
|
* and guarantees to traverse elements as they existed upon |
1228 |
|
|
* construction of the iterator, and may (but is not guaranteed to) |
1229 |
|
|
* reflect any modifications subsequent to construction. |
1230 |
|
|
* |
1231 |
|
|
* @return the collection view |
1232 |
|
|
*/ |
1233 |
|
|
public Collection<V> values() { |
1234 |
|
|
ValuesView<K,V> vs; |
1235 |
|
|
return (vs = values) != null ? vs : (values = new ValuesView<K,V>(this)); |
1236 |
|
|
} |
1237 |
|
|
|
1238 |
|
|
/** |
1239 |
|
|
* Returns a {@link Set} view of the mappings contained in this map. |
1240 |
|
|
* The set is backed by the map, so changes to the map are |
1241 |
|
|
* reflected in the set, and vice-versa. The set supports element |
1242 |
|
|
* removal, which removes the corresponding mapping from the map, |
1243 |
|
|
* via the {@code Iterator.remove}, {@code Set.remove}, |
1244 |
|
|
* {@code removeAll}, {@code retainAll}, and {@code clear} |
1245 |
|
|
* operations. |
1246 |
|
|
* |
1247 |
|
|
* <p>The view's {@code iterator} is a "weakly consistent" iterator |
1248 |
|
|
* that will never throw {@link ConcurrentModificationException}, |
1249 |
|
|
* and guarantees to traverse elements as they existed upon |
1250 |
|
|
* construction of the iterator, and may (but is not guaranteed to) |
1251 |
|
|
* reflect any modifications subsequent to construction. |
1252 |
|
|
* |
1253 |
|
|
* @return the set view |
1254 |
|
|
*/ |
1255 |
|
|
public Set<Map.Entry<K,V>> entrySet() { |
1256 |
|
|
EntrySetView<K,V> es; |
1257 |
|
|
return (es = entrySet) != null ? es : (entrySet = new EntrySetView<K,V>(this)); |
1258 |
dl |
1.27 |
} |
1259 |
|
|
|
1260 |
dl |
1.102 |
/** |
1261 |
|
|
* Returns the hash code value for this {@link Map}, i.e., |
1262 |
|
|
* the sum of, for each key-value pair in the map, |
1263 |
|
|
* {@code key.hashCode() ^ value.hashCode()}. |
1264 |
|
|
* |
1265 |
|
|
* @return the hash code value for this map |
1266 |
dl |
1.27 |
*/ |
1267 |
dl |
1.102 |
public int hashCode() { |
1268 |
|
|
int h = 0; |
1269 |
|
|
Node<K,V>[] t; |
1270 |
|
|
if ((t = table) != null) { |
1271 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
1272 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) |
1273 |
|
|
h += p.key.hashCode() ^ p.val.hashCode(); |
1274 |
|
|
} |
1275 |
|
|
return h; |
1276 |
|
|
} |
1277 |
dl |
1.27 |
|
1278 |
dl |
1.102 |
/** |
1279 |
|
|
* Returns a string representation of this map. The string |
1280 |
|
|
* representation consists of a list of key-value mappings (in no |
1281 |
|
|
* particular order) enclosed in braces ("{@code {}}"). Adjacent |
1282 |
|
|
* mappings are separated by the characters {@code ", "} (comma |
1283 |
|
|
* and space). Each key-value mapping is rendered as the key |
1284 |
|
|
* followed by an equals sign ("{@code =}") followed by the |
1285 |
|
|
* associated value. |
1286 |
|
|
* |
1287 |
|
|
* @return a string representation of this map |
1288 |
|
|
*/ |
1289 |
|
|
public String toString() { |
1290 |
|
|
Node<K,V>[] t; |
1291 |
|
|
int f = (t = table) == null ? 0 : t.length; |
1292 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, f, 0, f); |
1293 |
|
|
StringBuilder sb = new StringBuilder(); |
1294 |
|
|
sb.append('{'); |
1295 |
|
|
Node<K,V> p; |
1296 |
|
|
if ((p = it.advance()) != null) { |
1297 |
|
|
for (;;) { |
1298 |
|
|
K k = p.key; |
1299 |
|
|
V v = p.val; |
1300 |
|
|
sb.append(k == this ? "(this Map)" : k); |
1301 |
|
|
sb.append('='); |
1302 |
|
|
sb.append(v == this ? "(this Map)" : v); |
1303 |
|
|
if ((p = it.advance()) == null) |
1304 |
|
|
break; |
1305 |
|
|
sb.append(',').append(' '); |
1306 |
dl |
1.14 |
} |
1307 |
dl |
1.102 |
} |
1308 |
|
|
return sb.append('}').toString(); |
1309 |
|
|
} |
1310 |
|
|
|
1311 |
|
|
/** |
1312 |
|
|
* Compares the specified object with this map for equality. |
1313 |
|
|
* Returns {@code true} if the given object is a map with the same |
1314 |
|
|
* mappings as this map. This operation may return misleading |
1315 |
|
|
* results if either map is concurrently modified during execution |
1316 |
|
|
* of this method. |
1317 |
|
|
* |
1318 |
|
|
* @param o object to be compared for equality with this map |
1319 |
|
|
* @return {@code true} if the specified object is equal to this map |
1320 |
|
|
*/ |
1321 |
|
|
public boolean equals(Object o) { |
1322 |
|
|
if (o != this) { |
1323 |
|
|
if (!(o instanceof Map)) |
1324 |
|
|
return false; |
1325 |
|
|
Map<?,?> m = (Map<?,?>) o; |
1326 |
|
|
Node<K,V>[] t; |
1327 |
|
|
int f = (t = table) == null ? 0 : t.length; |
1328 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, f, 0, f); |
1329 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
1330 |
|
|
V val = p.val; |
1331 |
|
|
Object v = m.get(p.key); |
1332 |
|
|
if (v == null || (v != val && !v.equals(val))) |
1333 |
|
|
return false; |
1334 |
dl |
1.38 |
} |
1335 |
dl |
1.102 |
for (Map.Entry<?,?> e : m.entrySet()) { |
1336 |
|
|
Object mk, mv, v; |
1337 |
|
|
if ((mk = e.getKey()) == null || |
1338 |
|
|
(mv = e.getValue()) == null || |
1339 |
|
|
(v = get(mk)) == null || |
1340 |
|
|
(mv != v && !mv.equals(v))) |
1341 |
|
|
return false; |
1342 |
dl |
1.1 |
} |
1343 |
|
|
} |
1344 |
dl |
1.102 |
return true; |
1345 |
|
|
} |
1346 |
|
|
|
1347 |
|
|
/** |
1348 |
|
|
* Stripped-down version of helper class used in previous version, |
1349 |
|
|
* declared for the sake of serialization compatibility |
1350 |
|
|
*/ |
1351 |
|
|
static class Segment<K,V> extends ReentrantLock implements Serializable { |
1352 |
|
|
private static final long serialVersionUID = 2249069246763182397L; |
1353 |
|
|
final float loadFactor; |
1354 |
|
|
Segment(float lf) { this.loadFactor = lf; } |
1355 |
dl |
1.27 |
} |
1356 |
|
|
|
1357 |
dl |
1.102 |
/** |
1358 |
|
|
* Saves the state of the {@code ConcurrentHashMapV8} instance to a |
1359 |
|
|
* stream (i.e., serializes it). |
1360 |
|
|
* @param s the stream |
1361 |
|
|
* @serialData |
1362 |
|
|
* the key (Object) and value (Object) |
1363 |
|
|
* for each key-value mapping, followed by a null pair. |
1364 |
|
|
* The key-value mappings are emitted in no particular order. |
1365 |
|
|
*/ |
1366 |
|
|
private void writeObject(java.io.ObjectOutputStream s) |
1367 |
|
|
throws java.io.IOException { |
1368 |
|
|
// For serialization compatibility |
1369 |
|
|
// Emulate segment calculation from previous version of this class |
1370 |
|
|
int sshift = 0; |
1371 |
|
|
int ssize = 1; |
1372 |
|
|
while (ssize < DEFAULT_CONCURRENCY_LEVEL) { |
1373 |
|
|
++sshift; |
1374 |
|
|
ssize <<= 1; |
1375 |
|
|
} |
1376 |
|
|
int segmentShift = 32 - sshift; |
1377 |
|
|
int segmentMask = ssize - 1; |
1378 |
|
|
@SuppressWarnings("unchecked") Segment<K,V>[] segments = (Segment<K,V>[]) |
1379 |
|
|
new Segment<?,?>[DEFAULT_CONCURRENCY_LEVEL]; |
1380 |
|
|
for (int i = 0; i < segments.length; ++i) |
1381 |
|
|
segments[i] = new Segment<K,V>(LOAD_FACTOR); |
1382 |
|
|
s.putFields().put("segments", segments); |
1383 |
|
|
s.putFields().put("segmentShift", segmentShift); |
1384 |
|
|
s.putFields().put("segmentMask", segmentMask); |
1385 |
|
|
s.writeFields(); |
1386 |
|
|
|
1387 |
|
|
Node<K,V>[] t; |
1388 |
|
|
if ((t = table) != null) { |
1389 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
1390 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
1391 |
|
|
s.writeObject(p.key); |
1392 |
|
|
s.writeObject(p.val); |
1393 |
dl |
1.27 |
} |
1394 |
dl |
1.102 |
} |
1395 |
|
|
s.writeObject(null); |
1396 |
|
|
s.writeObject(null); |
1397 |
|
|
segments = null; // throw away |
1398 |
|
|
} |
1399 |
|
|
|
1400 |
|
|
/** |
1401 |
|
|
* Reconstitutes the instance from a stream (that is, deserializes it). |
1402 |
|
|
* @param s the stream |
1403 |
|
|
*/ |
1404 |
|
|
private void readObject(java.io.ObjectInputStream s) |
1405 |
|
|
throws java.io.IOException, ClassNotFoundException { |
1406 |
|
|
/* |
1407 |
|
|
* To improve performance in typical cases, we create nodes |
1408 |
|
|
* while reading, then place in table once size is known. |
1409 |
|
|
* However, we must also validate uniqueness and deal with |
1410 |
|
|
* overpopulated bins while doing so, which requires |
1411 |
|
|
* specialized versions of putVal mechanics. |
1412 |
|
|
*/ |
1413 |
|
|
sizeCtl = -1; // force exclusion for table construction |
1414 |
|
|
s.defaultReadObject(); |
1415 |
|
|
long size = 0L; |
1416 |
|
|
Node<K,V> p = null; |
1417 |
|
|
for (;;) { |
1418 |
|
|
@SuppressWarnings("unchecked") K k = (K) s.readObject(); |
1419 |
|
|
@SuppressWarnings("unchecked") V v = (V) s.readObject(); |
1420 |
|
|
if (k != null && v != null) { |
1421 |
|
|
p = new Node<K,V>(spread(k.hashCode()), k, v, p); |
1422 |
|
|
++size; |
1423 |
dl |
1.38 |
} |
1424 |
dl |
1.102 |
else |
1425 |
|
|
break; |
1426 |
|
|
} |
1427 |
|
|
if (size == 0L) |
1428 |
|
|
sizeCtl = 0; |
1429 |
|
|
else { |
1430 |
|
|
int n; |
1431 |
|
|
if (size >= (long)(MAXIMUM_CAPACITY >>> 1)) |
1432 |
|
|
n = MAXIMUM_CAPACITY; |
1433 |
dl |
1.27 |
else { |
1434 |
dl |
1.102 |
int sz = (int)size; |
1435 |
|
|
n = tableSizeFor(sz + (sz >>> 1) + 1); |
1436 |
|
|
} |
1437 |
|
|
@SuppressWarnings({"rawtypes","unchecked"}) |
1438 |
|
|
Node<K,V>[] tab = (Node<K,V>[])new Node[n]; |
1439 |
|
|
int mask = n - 1; |
1440 |
|
|
long added = 0L; |
1441 |
|
|
while (p != null) { |
1442 |
|
|
boolean insertAtFront; |
1443 |
|
|
Node<K,V> next = p.next, first; |
1444 |
|
|
int h = p.hash, j = h & mask; |
1445 |
|
|
if ((first = tabAt(tab, j)) == null) |
1446 |
|
|
insertAtFront = true; |
1447 |
|
|
else { |
1448 |
|
|
K k = p.key; |
1449 |
|
|
if (first.hash < 0) { |
1450 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)first; |
1451 |
|
|
if (t.putTreeVal(h, k, p.val) == null) |
1452 |
|
|
++added; |
1453 |
|
|
insertAtFront = false; |
1454 |
|
|
} |
1455 |
|
|
else { |
1456 |
|
|
int binCount = 0; |
1457 |
|
|
insertAtFront = true; |
1458 |
|
|
Node<K,V> q; K qk; |
1459 |
|
|
for (q = first; q != null; q = q.next) { |
1460 |
|
|
if (q.hash == h && |
1461 |
|
|
((qk = q.key) == k || |
1462 |
|
|
(qk != null && k.equals(qk)))) { |
1463 |
|
|
insertAtFront = false; |
1464 |
dl |
1.82 |
break; |
1465 |
|
|
} |
1466 |
dl |
1.102 |
++binCount; |
1467 |
|
|
} |
1468 |
|
|
if (insertAtFront && binCount >= TREEIFY_THRESHOLD) { |
1469 |
|
|
insertAtFront = false; |
1470 |
|
|
++added; |
1471 |
|
|
p.next = first; |
1472 |
|
|
TreeNode<K,V> hd = null, tl = null; |
1473 |
|
|
for (q = p; q != null; q = q.next) { |
1474 |
|
|
TreeNode<K,V> t = new TreeNode<K,V> |
1475 |
|
|
(q.hash, q.key, q.val, null, null); |
1476 |
|
|
if ((t.prev = tl) == null) |
1477 |
|
|
hd = t; |
1478 |
|
|
else |
1479 |
|
|
tl.next = t; |
1480 |
|
|
tl = t; |
1481 |
dl |
1.27 |
} |
1482 |
dl |
1.102 |
setTabAt(tab, j, new TreeBin<K,V>(hd)); |
1483 |
dl |
1.27 |
} |
1484 |
dl |
1.38 |
} |
1485 |
dl |
1.82 |
} |
1486 |
dl |
1.102 |
if (insertAtFront) { |
1487 |
|
|
++added; |
1488 |
|
|
p.next = first; |
1489 |
|
|
setTabAt(tab, j, p); |
1490 |
|
|
} |
1491 |
|
|
p = next; |
1492 |
|
|
} |
1493 |
|
|
table = tab; |
1494 |
|
|
sizeCtl = n - (n >>> 2); |
1495 |
|
|
baseCount = added; |
1496 |
|
|
} |
1497 |
|
|
} |
1498 |
|
|
|
1499 |
|
|
// ConcurrentMap methods |
1500 |
|
|
|
1501 |
|
|
/** |
1502 |
|
|
* {@inheritDoc} |
1503 |
|
|
* |
1504 |
|
|
* @return the previous value associated with the specified key, |
1505 |
|
|
* or {@code null} if there was no mapping for the key |
1506 |
|
|
* @throws NullPointerException if the specified key or value is null |
1507 |
|
|
*/ |
1508 |
|
|
public V putIfAbsent(K key, V value) { |
1509 |
|
|
return putVal(key, value, true); |
1510 |
|
|
} |
1511 |
|
|
|
1512 |
|
|
/** |
1513 |
|
|
* {@inheritDoc} |
1514 |
|
|
* |
1515 |
|
|
* @throws NullPointerException if the specified key is null |
1516 |
|
|
*/ |
1517 |
|
|
public boolean remove(Object key, Object value) { |
1518 |
|
|
if (key == null) |
1519 |
|
|
throw new NullPointerException(); |
1520 |
|
|
return value != null && replaceNode(key, null, value) != null; |
1521 |
|
|
} |
1522 |
|
|
|
1523 |
|
|
/** |
1524 |
|
|
* {@inheritDoc} |
1525 |
|
|
* |
1526 |
|
|
* @throws NullPointerException if any of the arguments are null |
1527 |
|
|
*/ |
1528 |
|
|
public boolean replace(K key, V oldValue, V newValue) { |
1529 |
|
|
if (key == null || oldValue == null || newValue == null) |
1530 |
|
|
throw new NullPointerException(); |
1531 |
|
|
return replaceNode(key, newValue, oldValue) != null; |
1532 |
|
|
} |
1533 |
|
|
|
1534 |
|
|
/** |
1535 |
|
|
* {@inheritDoc} |
1536 |
|
|
* |
1537 |
|
|
* @return the previous value associated with the specified key, |
1538 |
|
|
* or {@code null} if there was no mapping for the key |
1539 |
|
|
* @throws NullPointerException if the specified key or value is null |
1540 |
|
|
*/ |
1541 |
|
|
public V replace(K key, V value) { |
1542 |
|
|
if (key == null || value == null) |
1543 |
|
|
throw new NullPointerException(); |
1544 |
|
|
return replaceNode(key, value, null); |
1545 |
|
|
} |
1546 |
|
|
|
1547 |
|
|
// Overrides of JDK8+ Map extension method defaults |
1548 |
|
|
|
1549 |
|
|
/** |
1550 |
|
|
* Returns the value to which the specified key is mapped, or the |
1551 |
|
|
* given default value if this map contains no mapping for the |
1552 |
|
|
* key. |
1553 |
|
|
* |
1554 |
|
|
* @param key the key whose associated value is to be returned |
1555 |
|
|
* @param defaultValue the value to return if this map contains |
1556 |
|
|
* no mapping for the given key |
1557 |
|
|
* @return the mapping for the key, if present; else the default value |
1558 |
|
|
* @throws NullPointerException if the specified key is null |
1559 |
|
|
*/ |
1560 |
|
|
public V getOrDefault(Object key, V defaultValue) { |
1561 |
|
|
V v; |
1562 |
|
|
return (v = get(key)) == null ? defaultValue : v; |
1563 |
|
|
} |
1564 |
|
|
|
1565 |
|
|
public void forEach(BiAction<? super K, ? super V> action) { |
1566 |
|
|
if (action == null) throw new NullPointerException(); |
1567 |
|
|
Node<K,V>[] t; |
1568 |
|
|
if ((t = table) != null) { |
1569 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
1570 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
1571 |
|
|
action.apply(p.key, p.val); |
1572 |
|
|
} |
1573 |
|
|
} |
1574 |
|
|
} |
1575 |
|
|
|
1576 |
|
|
public void replaceAll(BiFun<? super K, ? super V, ? extends V> function) { |
1577 |
|
|
if (function == null) throw new NullPointerException(); |
1578 |
|
|
Node<K,V>[] t; |
1579 |
|
|
if ((t = table) != null) { |
1580 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
1581 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
1582 |
|
|
V oldValue = p.val; |
1583 |
|
|
for (K key = p.key;;) { |
1584 |
|
|
V newValue = function.apply(key, oldValue); |
1585 |
|
|
if (newValue == null) |
1586 |
|
|
throw new NullPointerException(); |
1587 |
|
|
if (replaceNode(key, newValue, oldValue) != null || |
1588 |
|
|
(oldValue = get(key)) == null) |
1589 |
|
|
break; |
1590 |
dl |
1.1 |
} |
1591 |
|
|
} |
1592 |
|
|
} |
1593 |
|
|
} |
1594 |
|
|
|
1595 |
dl |
1.102 |
/** |
1596 |
|
|
* If the specified key is not already associated with a value, |
1597 |
|
|
* attempts to compute its value using the given mapping function |
1598 |
|
|
* and enters it into this map unless {@code null}. The entire |
1599 |
|
|
* method invocation is performed atomically, so the function is |
1600 |
|
|
* applied at most once per key. Some attempted update operations |
1601 |
|
|
* on this map by other threads may be blocked while computation |
1602 |
|
|
* is in progress, so the computation should be short and simple, |
1603 |
|
|
* and must not attempt to update any other mappings of this map. |
1604 |
|
|
* |
1605 |
|
|
* @param key key with which the specified value is to be associated |
1606 |
|
|
* @param mappingFunction the function to compute a value |
1607 |
|
|
* @return the current (existing or computed) value associated with |
1608 |
|
|
* the specified key, or null if the computed value is null |
1609 |
|
|
* @throws NullPointerException if the specified key or mappingFunction |
1610 |
|
|
* is null |
1611 |
|
|
* @throws IllegalStateException if the computation detectably |
1612 |
|
|
* attempts a recursive update to this map that would |
1613 |
|
|
* otherwise never complete |
1614 |
|
|
* @throws RuntimeException or Error if the mappingFunction does so, |
1615 |
|
|
* in which case the mapping is left unestablished |
1616 |
|
|
*/ |
1617 |
|
|
public V computeIfAbsent(K key, Fun<? super K, ? extends V> mappingFunction) { |
1618 |
|
|
if (key == null || mappingFunction == null) |
1619 |
dl |
1.82 |
throw new NullPointerException(); |
1620 |
dl |
1.102 |
int h = spread(key.hashCode()); |
1621 |
dl |
1.84 |
V val = null; |
1622 |
dl |
1.102 |
int binCount = 0; |
1623 |
|
|
for (Node<K,V>[] tab = table;;) { |
1624 |
|
|
Node<K,V> f; int n, i, fh; |
1625 |
|
|
if (tab == null || (n = tab.length) == 0) |
1626 |
dl |
1.24 |
tab = initTable(); |
1627 |
dl |
1.102 |
else if ((f = tabAt(tab, i = (n - 1) & h)) == null) { |
1628 |
|
|
Node<K,V> r = new ReservationNode<K,V>(); |
1629 |
|
|
synchronized (r) { |
1630 |
|
|
if (casTabAt(tab, i, null, r)) { |
1631 |
|
|
binCount = 1; |
1632 |
|
|
Node<K,V> node = null; |
1633 |
dl |
1.82 |
try { |
1634 |
dl |
1.102 |
if ((val = mappingFunction.apply(key)) != null) |
1635 |
|
|
node = new Node<K,V>(h, key, val, null); |
1636 |
dl |
1.82 |
} finally { |
1637 |
dl |
1.102 |
setTabAt(tab, i, node); |
1638 |
dl |
1.1 |
} |
1639 |
|
|
} |
1640 |
|
|
} |
1641 |
dl |
1.102 |
if (binCount != 0) |
1642 |
dl |
1.10 |
break; |
1643 |
dl |
1.1 |
} |
1644 |
dl |
1.102 |
else if ((fh = f.hash) == MOVED) |
1645 |
|
|
tab = helpTransfer(tab, f); |
1646 |
|
|
else { |
1647 |
|
|
boolean added = false; |
1648 |
|
|
synchronized (f) { |
1649 |
|
|
if (tabAt(tab, i) == f) { |
1650 |
|
|
if (fh >= 0) { |
1651 |
|
|
binCount = 1; |
1652 |
|
|
for (Node<K,V> e = f;; ++binCount) { |
1653 |
|
|
K ek; V ev; |
1654 |
|
|
if (e.hash == h && |
1655 |
|
|
((ek = e.key) == key || |
1656 |
|
|
(ek != null && key.equals(ek)))) { |
1657 |
|
|
val = e.val; |
1658 |
|
|
break; |
1659 |
|
|
} |
1660 |
|
|
Node<K,V> pred = e; |
1661 |
|
|
if ((e = e.next) == null) { |
1662 |
|
|
if ((val = mappingFunction.apply(key)) != null) { |
1663 |
|
|
added = true; |
1664 |
|
|
pred.next = new Node<K,V>(h, key, val, null); |
1665 |
|
|
} |
1666 |
|
|
break; |
1667 |
dl |
1.38 |
} |
1668 |
|
|
} |
1669 |
dl |
1.102 |
} |
1670 |
|
|
else if (f instanceof TreeBin) { |
1671 |
|
|
binCount = 2; |
1672 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)f; |
1673 |
|
|
TreeNode<K,V> r, p; |
1674 |
|
|
if ((r = t.root) != null && |
1675 |
|
|
(p = r.findTreeNode(h, key, null)) != null) |
1676 |
|
|
val = p.val; |
1677 |
|
|
else if ((val = mappingFunction.apply(key)) != null) { |
1678 |
|
|
added = true; |
1679 |
|
|
t.putTreeVal(h, key, val); |
1680 |
dl |
1.41 |
} |
1681 |
dl |
1.38 |
} |
1682 |
|
|
} |
1683 |
|
|
} |
1684 |
dl |
1.102 |
if (binCount != 0) { |
1685 |
|
|
if (binCount >= TREEIFY_THRESHOLD) |
1686 |
|
|
treeifyBin(tab, i); |
1687 |
|
|
if (!added) |
1688 |
|
|
return val; |
1689 |
|
|
break; |
1690 |
|
|
} |
1691 |
dl |
1.38 |
} |
1692 |
dl |
1.102 |
} |
1693 |
|
|
if (val != null) |
1694 |
|
|
addCount(1L, binCount); |
1695 |
|
|
return val; |
1696 |
|
|
} |
1697 |
|
|
|
1698 |
|
|
/** |
1699 |
|
|
* If the value for the specified key is present, attempts to |
1700 |
|
|
* compute a new mapping given the key and its current mapped |
1701 |
|
|
* value. The entire method invocation is performed atomically. |
1702 |
|
|
* Some attempted update operations on this map by other threads |
1703 |
|
|
* may be blocked while computation is in progress, so the |
1704 |
|
|
* computation should be short and simple, and must not attempt to |
1705 |
|
|
* update any other mappings of this map. |
1706 |
|
|
* |
1707 |
|
|
* @param key key with which a value may be associated |
1708 |
|
|
* @param remappingFunction the function to compute a value |
1709 |
|
|
* @return the new value associated with the specified key, or null if none |
1710 |
|
|
* @throws NullPointerException if the specified key or remappingFunction |
1711 |
|
|
* is null |
1712 |
|
|
* @throws IllegalStateException if the computation detectably |
1713 |
|
|
* attempts a recursive update to this map that would |
1714 |
|
|
* otherwise never complete |
1715 |
|
|
* @throws RuntimeException or Error if the remappingFunction does so, |
1716 |
|
|
* in which case the mapping is unchanged |
1717 |
|
|
*/ |
1718 |
|
|
public V computeIfPresent(K key, BiFun<? super K, ? super V, ? extends V> remappingFunction) { |
1719 |
|
|
if (key == null || remappingFunction == null) |
1720 |
|
|
throw new NullPointerException(); |
1721 |
|
|
int h = spread(key.hashCode()); |
1722 |
|
|
V val = null; |
1723 |
|
|
int delta = 0; |
1724 |
|
|
int binCount = 0; |
1725 |
|
|
for (Node<K,V>[] tab = table;;) { |
1726 |
|
|
Node<K,V> f; int n, i, fh; |
1727 |
|
|
if (tab == null || (n = tab.length) == 0) |
1728 |
|
|
tab = initTable(); |
1729 |
|
|
else if ((f = tabAt(tab, i = (n - 1) & h)) == null) |
1730 |
|
|
break; |
1731 |
|
|
else if ((fh = f.hash) == MOVED) |
1732 |
|
|
tab = helpTransfer(tab, f); |
1733 |
dl |
1.82 |
else { |
1734 |
jsr166 |
1.83 |
synchronized (f) { |
1735 |
dl |
1.24 |
if (tabAt(tab, i) == f) { |
1736 |
dl |
1.102 |
if (fh >= 0) { |
1737 |
|
|
binCount = 1; |
1738 |
|
|
for (Node<K,V> e = f, pred = null;; ++binCount) { |
1739 |
|
|
K ek; |
1740 |
|
|
if (e.hash == h && |
1741 |
|
|
((ek = e.key) == key || |
1742 |
|
|
(ek != null && key.equals(ek)))) { |
1743 |
|
|
val = remappingFunction.apply(key, e.val); |
1744 |
|
|
if (val != null) |
1745 |
|
|
e.val = val; |
1746 |
|
|
else { |
1747 |
|
|
delta = -1; |
1748 |
|
|
Node<K,V> en = e.next; |
1749 |
|
|
if (pred != null) |
1750 |
|
|
pred.next = en; |
1751 |
|
|
else |
1752 |
|
|
setTabAt(tab, i, en); |
1753 |
|
|
} |
1754 |
|
|
break; |
1755 |
|
|
} |
1756 |
|
|
pred = e; |
1757 |
|
|
if ((e = e.next) == null) |
1758 |
|
|
break; |
1759 |
|
|
} |
1760 |
|
|
} |
1761 |
|
|
else if (f instanceof TreeBin) { |
1762 |
|
|
binCount = 2; |
1763 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)f; |
1764 |
|
|
TreeNode<K,V> r, p; |
1765 |
|
|
if ((r = t.root) != null && |
1766 |
|
|
(p = r.findTreeNode(h, key, null)) != null) { |
1767 |
|
|
val = remappingFunction.apply(key, p.val); |
1768 |
dl |
1.27 |
if (val != null) |
1769 |
dl |
1.102 |
p.val = val; |
1770 |
dl |
1.41 |
else { |
1771 |
|
|
delta = -1; |
1772 |
dl |
1.102 |
if (t.removeTreeNode(p)) |
1773 |
|
|
setTabAt(tab, i, untreeify(t.first)); |
1774 |
dl |
1.1 |
} |
1775 |
|
|
} |
1776 |
|
|
} |
1777 |
|
|
} |
1778 |
|
|
} |
1779 |
dl |
1.102 |
if (binCount != 0) |
1780 |
dl |
1.10 |
break; |
1781 |
dl |
1.1 |
} |
1782 |
dl |
1.10 |
} |
1783 |
dl |
1.82 |
if (delta != 0) |
1784 |
dl |
1.102 |
addCount((long)delta, binCount); |
1785 |
dl |
1.84 |
return val; |
1786 |
dl |
1.1 |
} |
1787 |
|
|
|
1788 |
dl |
1.102 |
/** |
1789 |
|
|
* Attempts to compute a mapping for the specified key and its |
1790 |
|
|
* current mapped value (or {@code null} if there is no current |
1791 |
|
|
* mapping). The entire method invocation is performed atomically. |
1792 |
|
|
* Some attempted update operations on this map by other threads |
1793 |
|
|
* may be blocked while computation is in progress, so the |
1794 |
|
|
* computation should be short and simple, and must not attempt to |
1795 |
|
|
* update any other mappings of this Map. |
1796 |
|
|
* |
1797 |
|
|
* @param key key with which the specified value is to be associated |
1798 |
|
|
* @param remappingFunction the function to compute a value |
1799 |
|
|
* @return the new value associated with the specified key, or null if none |
1800 |
|
|
* @throws NullPointerException if the specified key or remappingFunction |
1801 |
|
|
* is null |
1802 |
|
|
* @throws IllegalStateException if the computation detectably |
1803 |
|
|
* attempts a recursive update to this map that would |
1804 |
|
|
* otherwise never complete |
1805 |
|
|
* @throws RuntimeException or Error if the remappingFunction does so, |
1806 |
|
|
* in which case the mapping is unchanged |
1807 |
|
|
*/ |
1808 |
|
|
public V compute(K key, |
1809 |
|
|
BiFun<? super K, ? super V, ? extends V> remappingFunction) { |
1810 |
|
|
if (key == null || remappingFunction == null) |
1811 |
dl |
1.82 |
throw new NullPointerException(); |
1812 |
dl |
1.102 |
int h = spread(key.hashCode()); |
1813 |
dl |
1.84 |
V val = null; |
1814 |
dl |
1.52 |
int delta = 0; |
1815 |
dl |
1.102 |
int binCount = 0; |
1816 |
|
|
for (Node<K,V>[] tab = table;;) { |
1817 |
|
|
Node<K,V> f; int n, i, fh; |
1818 |
|
|
if (tab == null || (n = tab.length) == 0) |
1819 |
dl |
1.52 |
tab = initTable(); |
1820 |
dl |
1.102 |
else if ((f = tabAt(tab, i = (n - 1) & h)) == null) { |
1821 |
|
|
Node<K,V> r = new ReservationNode<K,V>(); |
1822 |
|
|
synchronized (r) { |
1823 |
|
|
if (casTabAt(tab, i, null, r)) { |
1824 |
|
|
binCount = 1; |
1825 |
|
|
Node<K,V> node = null; |
1826 |
|
|
try { |
1827 |
|
|
if ((val = remappingFunction.apply(key, null)) != null) { |
1828 |
|
|
delta = 1; |
1829 |
|
|
node = new Node<K,V>(h, key, val, null); |
1830 |
|
|
} |
1831 |
|
|
} finally { |
1832 |
|
|
setTabAt(tab, i, node); |
1833 |
|
|
} |
1834 |
|
|
} |
1835 |
|
|
} |
1836 |
|
|
if (binCount != 0) |
1837 |
dl |
1.52 |
break; |
1838 |
|
|
} |
1839 |
dl |
1.102 |
else if ((fh = f.hash) == MOVED) |
1840 |
|
|
tab = helpTransfer(tab, f); |
1841 |
|
|
else { |
1842 |
|
|
synchronized (f) { |
1843 |
|
|
if (tabAt(tab, i) == f) { |
1844 |
|
|
if (fh >= 0) { |
1845 |
|
|
binCount = 1; |
1846 |
|
|
for (Node<K,V> e = f, pred = null;; ++binCount) { |
1847 |
|
|
K ek; |
1848 |
|
|
if (e.hash == h && |
1849 |
|
|
((ek = e.key) == key || |
1850 |
|
|
(ek != null && key.equals(ek)))) { |
1851 |
|
|
val = remappingFunction.apply(key, e.val); |
1852 |
|
|
if (val != null) |
1853 |
|
|
e.val = val; |
1854 |
|
|
else { |
1855 |
|
|
delta = -1; |
1856 |
|
|
Node<K,V> en = e.next; |
1857 |
|
|
if (pred != null) |
1858 |
|
|
pred.next = en; |
1859 |
|
|
else |
1860 |
|
|
setTabAt(tab, i, en); |
1861 |
|
|
} |
1862 |
|
|
break; |
1863 |
|
|
} |
1864 |
|
|
pred = e; |
1865 |
|
|
if ((e = e.next) == null) { |
1866 |
|
|
val = remappingFunction.apply(key, null); |
1867 |
|
|
if (val != null) { |
1868 |
|
|
delta = 1; |
1869 |
|
|
pred.next = |
1870 |
|
|
new Node<K,V>(h, key, val, null); |
1871 |
|
|
} |
1872 |
|
|
break; |
1873 |
|
|
} |
1874 |
|
|
} |
1875 |
|
|
} |
1876 |
|
|
else if (f instanceof TreeBin) { |
1877 |
|
|
binCount = 1; |
1878 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)f; |
1879 |
|
|
TreeNode<K,V> r, p; |
1880 |
|
|
if ((r = t.root) != null) |
1881 |
|
|
p = r.findTreeNode(h, key, null); |
1882 |
|
|
else |
1883 |
|
|
p = null; |
1884 |
|
|
V pv = (p == null) ? null : p.val; |
1885 |
|
|
val = remappingFunction.apply(key, pv); |
1886 |
dl |
1.52 |
if (val != null) { |
1887 |
|
|
if (p != null) |
1888 |
|
|
p.val = val; |
1889 |
|
|
else { |
1890 |
|
|
delta = 1; |
1891 |
dl |
1.102 |
t.putTreeVal(h, key, val); |
1892 |
dl |
1.52 |
} |
1893 |
|
|
} |
1894 |
|
|
else if (p != null) { |
1895 |
|
|
delta = -1; |
1896 |
dl |
1.102 |
if (t.removeTreeNode(p)) |
1897 |
|
|
setTabAt(tab, i, untreeify(t.first)); |
1898 |
dl |
1.52 |
} |
1899 |
|
|
} |
1900 |
|
|
} |
1901 |
|
|
} |
1902 |
dl |
1.102 |
if (binCount != 0) { |
1903 |
|
|
if (binCount >= TREEIFY_THRESHOLD) |
1904 |
|
|
treeifyBin(tab, i); |
1905 |
|
|
break; |
1906 |
dl |
1.52 |
} |
1907 |
|
|
} |
1908 |
|
|
} |
1909 |
dl |
1.82 |
if (delta != 0) |
1910 |
dl |
1.102 |
addCount((long)delta, binCount); |
1911 |
dl |
1.84 |
return val; |
1912 |
dl |
1.52 |
} |
1913 |
|
|
|
1914 |
dl |
1.102 |
/** |
1915 |
|
|
* If the specified key is not already associated with a |
1916 |
|
|
* (non-null) value, associates it with the given value. |
1917 |
|
|
* Otherwise, replaces the value with the results of the given |
1918 |
|
|
* remapping function, or removes if {@code null}. The entire |
1919 |
|
|
* method invocation is performed atomically. Some attempted |
1920 |
|
|
* update operations on this map by other threads may be blocked |
1921 |
|
|
* while computation is in progress, so the computation should be |
1922 |
|
|
* short and simple, and must not attempt to update any other |
1923 |
|
|
* mappings of this Map. |
1924 |
|
|
* |
1925 |
|
|
* @param key key with which the specified value is to be associated |
1926 |
|
|
* @param value the value to use if absent |
1927 |
|
|
* @param remappingFunction the function to recompute a value if present |
1928 |
|
|
* @return the new value associated with the specified key, or null if none |
1929 |
|
|
* @throws NullPointerException if the specified key or the |
1930 |
|
|
* remappingFunction is null |
1931 |
|
|
* @throws RuntimeException or Error if the remappingFunction does so, |
1932 |
|
|
* in which case the mapping is unchanged |
1933 |
|
|
*/ |
1934 |
|
|
public V merge(K key, V value, BiFun<? super V, ? super V, ? extends V> remappingFunction) { |
1935 |
|
|
if (key == null || value == null || remappingFunction == null) |
1936 |
|
|
throw new NullPointerException(); |
1937 |
|
|
int h = spread(key.hashCode()); |
1938 |
|
|
V val = null; |
1939 |
|
|
int delta = 0; |
1940 |
|
|
int binCount = 0; |
1941 |
|
|
for (Node<K,V>[] tab = table;;) { |
1942 |
|
|
Node<K,V> f; int n, i, fh; |
1943 |
|
|
if (tab == null || (n = tab.length) == 0) |
1944 |
|
|
tab = initTable(); |
1945 |
|
|
else if ((f = tabAt(tab, i = (n - 1) & h)) == null) { |
1946 |
|
|
if (casTabAt(tab, i, null, new Node<K,V>(h, key, value, null))) { |
1947 |
|
|
delta = 1; |
1948 |
|
|
val = value; |
1949 |
dl |
1.27 |
break; |
1950 |
|
|
} |
1951 |
dl |
1.102 |
} |
1952 |
|
|
else if ((fh = f.hash) == MOVED) |
1953 |
|
|
tab = helpTransfer(tab, f); |
1954 |
|
|
else { |
1955 |
|
|
synchronized (f) { |
1956 |
|
|
if (tabAt(tab, i) == f) { |
1957 |
|
|
if (fh >= 0) { |
1958 |
|
|
binCount = 1; |
1959 |
|
|
for (Node<K,V> e = f, pred = null;; ++binCount) { |
1960 |
|
|
K ek; |
1961 |
|
|
if (e.hash == h && |
1962 |
|
|
((ek = e.key) == key || |
1963 |
|
|
(ek != null && key.equals(ek)))) { |
1964 |
|
|
val = remappingFunction.apply(e.val, value); |
1965 |
|
|
if (val != null) |
1966 |
|
|
e.val = val; |
1967 |
dl |
1.38 |
else { |
1968 |
dl |
1.102 |
delta = -1; |
1969 |
|
|
Node<K,V> en = e.next; |
1970 |
|
|
if (pred != null) |
1971 |
|
|
pred.next = en; |
1972 |
|
|
else |
1973 |
|
|
setTabAt(tab, i, en); |
1974 |
dl |
1.38 |
} |
1975 |
dl |
1.102 |
break; |
1976 |
|
|
} |
1977 |
|
|
pred = e; |
1978 |
|
|
if ((e = e.next) == null) { |
1979 |
|
|
delta = 1; |
1980 |
|
|
val = value; |
1981 |
|
|
pred.next = |
1982 |
|
|
new Node<K,V>(h, key, val, null); |
1983 |
|
|
break; |
1984 |
dl |
1.38 |
} |
1985 |
|
|
} |
1986 |
|
|
} |
1987 |
dl |
1.102 |
else if (f instanceof TreeBin) { |
1988 |
|
|
binCount = 2; |
1989 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)f; |
1990 |
|
|
TreeNode<K,V> r = t.root; |
1991 |
|
|
TreeNode<K,V> p = (r == null) ? null : |
1992 |
|
|
r.findTreeNode(h, key, null); |
1993 |
|
|
val = (p == null) ? value : |
1994 |
|
|
remappingFunction.apply(p.val, value); |
1995 |
|
|
if (val != null) { |
1996 |
|
|
if (p != null) |
1997 |
|
|
p.val = val; |
1998 |
|
|
else { |
1999 |
|
|
delta = 1; |
2000 |
|
|
t.putTreeVal(h, key, val); |
2001 |
dl |
1.27 |
} |
2002 |
|
|
} |
2003 |
dl |
1.102 |
else if (p != null) { |
2004 |
|
|
delta = -1; |
2005 |
|
|
if (t.removeTreeNode(p)) |
2006 |
|
|
setTabAt(tab, i, untreeify(t.first)); |
2007 |
dl |
1.90 |
} |
2008 |
dl |
1.24 |
} |
2009 |
|
|
} |
2010 |
dl |
1.1 |
} |
2011 |
dl |
1.102 |
if (binCount != 0) { |
2012 |
|
|
if (binCount >= TREEIFY_THRESHOLD) |
2013 |
|
|
treeifyBin(tab, i); |
2014 |
|
|
break; |
2015 |
|
|
} |
2016 |
dl |
1.1 |
} |
2017 |
|
|
} |
2018 |
dl |
1.102 |
if (delta != 0) |
2019 |
|
|
addCount((long)delta, binCount); |
2020 |
|
|
return val; |
2021 |
dl |
1.1 |
} |
2022 |
|
|
|
2023 |
dl |
1.102 |
// Hashtable legacy methods |
2024 |
|
|
|
2025 |
dl |
1.82 |
/** |
2026 |
dl |
1.102 |
* Legacy method testing if some key maps into the specified value |
2027 |
|
|
* in this table. This method is identical in functionality to |
2028 |
|
|
* {@link #containsValue(Object)}, and exists solely to ensure |
2029 |
|
|
* full compatibility with class {@link java.util.Hashtable}, |
2030 |
|
|
* which supported this method prior to introduction of the |
2031 |
|
|
* Java Collections framework. |
2032 |
|
|
* |
2033 |
|
|
* @param value a value to search for |
2034 |
|
|
* @return {@code true} if and only if some key maps to the |
2035 |
|
|
* {@code value} argument in this table as |
2036 |
|
|
* determined by the {@code equals} method; |
2037 |
|
|
* {@code false} otherwise |
2038 |
|
|
* @throws NullPointerException if the specified value is null |
2039 |
|
|
*/ |
2040 |
|
|
@Deprecated public boolean contains(Object value) { |
2041 |
|
|
return containsValue(value); |
2042 |
|
|
} |
2043 |
|
|
|
2044 |
|
|
/** |
2045 |
|
|
* Returns an enumeration of the keys in this table. |
2046 |
|
|
* |
2047 |
|
|
* @return an enumeration of the keys in this table |
2048 |
|
|
* @see #keySet() |
2049 |
|
|
*/ |
2050 |
|
|
public Enumeration<K> keys() { |
2051 |
|
|
Node<K,V>[] t; |
2052 |
|
|
int f = (t = table) == null ? 0 : t.length; |
2053 |
|
|
return new KeyIterator<K,V>(t, f, 0, f, this); |
2054 |
|
|
} |
2055 |
|
|
|
2056 |
|
|
/** |
2057 |
|
|
* Returns an enumeration of the values in this table. |
2058 |
|
|
* |
2059 |
|
|
* @return an enumeration of the values in this table |
2060 |
|
|
* @see #values() |
2061 |
|
|
*/ |
2062 |
|
|
public Enumeration<V> elements() { |
2063 |
|
|
Node<K,V>[] t; |
2064 |
|
|
int f = (t = table) == null ? 0 : t.length; |
2065 |
|
|
return new ValueIterator<K,V>(t, f, 0, f, this); |
2066 |
|
|
} |
2067 |
|
|
|
2068 |
|
|
// ConcurrentHashMapV8-only methods |
2069 |
|
|
|
2070 |
|
|
/** |
2071 |
|
|
* Returns the number of mappings. This method should be used |
2072 |
|
|
* instead of {@link #size} because a ConcurrentHashMapV8 may |
2073 |
|
|
* contain more mappings than can be represented as an int. The |
2074 |
|
|
* value returned is an estimate; the actual count may differ if |
2075 |
|
|
* there are concurrent insertions or removals. |
2076 |
|
|
* |
2077 |
|
|
* @return the number of mappings |
2078 |
|
|
* @since 1.8 |
2079 |
|
|
*/ |
2080 |
|
|
public long mappingCount() { |
2081 |
|
|
long n = sumCount(); |
2082 |
|
|
return (n < 0L) ? 0L : n; // ignore transient negative values |
2083 |
|
|
} |
2084 |
|
|
|
2085 |
|
|
/** |
2086 |
|
|
* Creates a new {@link Set} backed by a ConcurrentHashMapV8 |
2087 |
|
|
* from the given type to {@code Boolean.TRUE}. |
2088 |
|
|
* |
2089 |
|
|
* @return the new set |
2090 |
|
|
* @since 1.8 |
2091 |
|
|
*/ |
2092 |
|
|
public static <K> KeySetView<K,Boolean> newKeySet() { |
2093 |
|
|
return new KeySetView<K,Boolean> |
2094 |
|
|
(new ConcurrentHashMapV8<K,Boolean>(), Boolean.TRUE); |
2095 |
|
|
} |
2096 |
|
|
|
2097 |
|
|
/** |
2098 |
|
|
* Creates a new {@link Set} backed by a ConcurrentHashMapV8 |
2099 |
|
|
* from the given type to {@code Boolean.TRUE}. |
2100 |
|
|
* |
2101 |
|
|
* @param initialCapacity The implementation performs internal |
2102 |
|
|
* sizing to accommodate this many elements. |
2103 |
|
|
* @throws IllegalArgumentException if the initial capacity of |
2104 |
|
|
* elements is negative |
2105 |
|
|
* @return the new set |
2106 |
|
|
* @since 1.8 |
2107 |
|
|
*/ |
2108 |
|
|
public static <K> KeySetView<K,Boolean> newKeySet(int initialCapacity) { |
2109 |
|
|
return new KeySetView<K,Boolean> |
2110 |
|
|
(new ConcurrentHashMapV8<K,Boolean>(initialCapacity), Boolean.TRUE); |
2111 |
|
|
} |
2112 |
|
|
|
2113 |
|
|
/** |
2114 |
|
|
* Returns a {@link Set} view of the keys in this map, using the |
2115 |
|
|
* given common mapped value for any additions (i.e., {@link |
2116 |
|
|
* Collection#add} and {@link Collection#addAll(Collection)}). |
2117 |
|
|
* This is of course only appropriate if it is acceptable to use |
2118 |
|
|
* the same value for all additions from this view. |
2119 |
|
|
* |
2120 |
|
|
* @param mappedValue the mapped value to use for any additions |
2121 |
|
|
* @return the set view |
2122 |
|
|
* @throws NullPointerException if the mappedValue is null |
2123 |
dl |
1.82 |
*/ |
2124 |
dl |
1.102 |
public KeySetView<K,V> keySet(V mappedValue) { |
2125 |
|
|
if (mappedValue == null) |
2126 |
|
|
throw new NullPointerException(); |
2127 |
|
|
return new KeySetView<K,V>(this, mappedValue); |
2128 |
|
|
} |
2129 |
|
|
|
2130 |
|
|
/* ---------------- Special Nodes -------------- */ |
2131 |
|
|
|
2132 |
|
|
/** |
2133 |
|
|
* A node inserted at head of bins during transfer operations. |
2134 |
|
|
*/ |
2135 |
|
|
static final class ForwardingNode<K,V> extends Node<K,V> { |
2136 |
|
|
final Node<K,V>[] nextTable; |
2137 |
|
|
ForwardingNode(Node<K,V>[] tab) { |
2138 |
|
|
super(MOVED, null, null, null); |
2139 |
|
|
this.nextTable = tab; |
2140 |
|
|
} |
2141 |
|
|
|
2142 |
|
|
Node<K,V> find(int h, Object k) { |
2143 |
|
|
Node<K,V> e; int n; |
2144 |
|
|
Node<K,V>[] tab = nextTable; |
2145 |
|
|
if (k != null && tab != null && (n = tab.length) > 0 && |
2146 |
|
|
(e = tabAt(tab, (n - 1) & h)) != null) { |
2147 |
|
|
do { |
2148 |
|
|
int eh; K ek; |
2149 |
|
|
if ((eh = e.hash) == h && |
2150 |
|
|
((ek = e.key) == k || (ek != null && k.equals(ek)))) |
2151 |
|
|
return e; |
2152 |
|
|
if (eh < 0) |
2153 |
|
|
return e.find(h, k); |
2154 |
|
|
} while ((e = e.next) != null); |
2155 |
dl |
1.82 |
} |
2156 |
dl |
1.102 |
return null; |
2157 |
dl |
1.82 |
} |
2158 |
|
|
} |
2159 |
|
|
|
2160 |
dl |
1.24 |
/** |
2161 |
dl |
1.102 |
* A place-holder node used in computeIfAbsent and compute |
2162 |
dl |
1.24 |
*/ |
2163 |
dl |
1.102 |
static final class ReservationNode<K,V> extends Node<K,V> { |
2164 |
|
|
ReservationNode() { |
2165 |
|
|
super(RESERVED, null, null, null); |
2166 |
|
|
} |
2167 |
|
|
|
2168 |
|
|
Node<K,V> find(int h, Object k) { |
2169 |
|
|
return null; |
2170 |
|
|
} |
2171 |
dl |
1.24 |
} |
2172 |
|
|
|
2173 |
dl |
1.102 |
/* ---------------- Table Initialization and Resizing -------------- */ |
2174 |
|
|
|
2175 |
dl |
1.24 |
/** |
2176 |
|
|
* Initializes table, using the size recorded in sizeCtl. |
2177 |
|
|
*/ |
2178 |
dl |
1.102 |
private final Node<K,V>[] initTable() { |
2179 |
|
|
Node<K,V>[] tab; int sc; |
2180 |
|
|
while ((tab = table) == null || tab.length == 0) { |
2181 |
dl |
1.24 |
if ((sc = sizeCtl) < 0) |
2182 |
|
|
Thread.yield(); // lost initialization race; just spin |
2183 |
dl |
1.82 |
else if (U.compareAndSwapInt(this, SIZECTL, sc, -1)) { |
2184 |
dl |
1.24 |
try { |
2185 |
dl |
1.102 |
if ((tab = table) == null || tab.length == 0) { |
2186 |
dl |
1.24 |
int n = (sc > 0) ? sc : DEFAULT_CAPACITY; |
2187 |
dl |
1.102 |
@SuppressWarnings({"rawtypes","unchecked"}) |
2188 |
|
|
Node<K,V>[] nt = (Node<K,V>[])new Node[n]; |
2189 |
|
|
table = tab = nt; |
2190 |
dl |
1.27 |
sc = n - (n >>> 2); |
2191 |
dl |
1.24 |
} |
2192 |
|
|
} finally { |
2193 |
|
|
sizeCtl = sc; |
2194 |
|
|
} |
2195 |
|
|
break; |
2196 |
|
|
} |
2197 |
|
|
} |
2198 |
|
|
return tab; |
2199 |
|
|
} |
2200 |
|
|
|
2201 |
|
|
/** |
2202 |
dl |
1.82 |
* Adds to count, and if table is too small and not already |
2203 |
|
|
* resizing, initiates transfer. If already resizing, helps |
2204 |
|
|
* perform transfer if work is available. Rechecks occupancy |
2205 |
|
|
* after a transfer to see if another resize is already needed |
2206 |
|
|
* because resizings are lagging additions. |
2207 |
|
|
* |
2208 |
|
|
* @param x the count to add |
2209 |
|
|
* @param check if <0, don't check resize, if <= 1 only check if uncontended |
2210 |
|
|
*/ |
2211 |
|
|
private final void addCount(long x, int check) { |
2212 |
|
|
CounterCell[] as; long b, s; |
2213 |
|
|
if ((as = counterCells) != null || |
2214 |
|
|
!U.compareAndSwapLong(this, BASECOUNT, b = baseCount, s = b + x)) { |
2215 |
|
|
CounterHashCode hc; CounterCell a; long v; int m; |
2216 |
|
|
boolean uncontended = true; |
2217 |
|
|
if ((hc = threadCounterHashCode.get()) == null || |
2218 |
|
|
as == null || (m = as.length - 1) < 0 || |
2219 |
|
|
(a = as[m & hc.code]) == null || |
2220 |
|
|
!(uncontended = |
2221 |
|
|
U.compareAndSwapLong(a, CELLVALUE, v = a.value, v + x))) { |
2222 |
|
|
fullAddCount(x, hc, uncontended); |
2223 |
|
|
return; |
2224 |
|
|
} |
2225 |
|
|
if (check <= 1) |
2226 |
|
|
return; |
2227 |
|
|
s = sumCount(); |
2228 |
|
|
} |
2229 |
|
|
if (check >= 0) { |
2230 |
dl |
1.102 |
Node<K,V>[] tab, nt; int sc; |
2231 |
dl |
1.82 |
while (s >= (long)(sc = sizeCtl) && (tab = table) != null && |
2232 |
|
|
tab.length < MAXIMUM_CAPACITY) { |
2233 |
|
|
if (sc < 0) { |
2234 |
|
|
if (sc == -1 || transferIndex <= transferOrigin || |
2235 |
|
|
(nt = nextTable) == null) |
2236 |
|
|
break; |
2237 |
|
|
if (U.compareAndSwapInt(this, SIZECTL, sc, sc - 1)) |
2238 |
|
|
transfer(tab, nt); |
2239 |
dl |
1.24 |
} |
2240 |
dl |
1.82 |
else if (U.compareAndSwapInt(this, SIZECTL, sc, -2)) |
2241 |
|
|
transfer(tab, null); |
2242 |
|
|
s = sumCount(); |
2243 |
dl |
1.24 |
} |
2244 |
|
|
} |
2245 |
|
|
} |
2246 |
|
|
|
2247 |
dl |
1.27 |
/** |
2248 |
dl |
1.102 |
* Helps transfer if a resize is in progress. |
2249 |
|
|
*/ |
2250 |
|
|
final Node<K,V>[] helpTransfer(Node<K,V>[] tab, Node<K,V> f) { |
2251 |
|
|
Node<K,V>[] nextTab; int sc; |
2252 |
|
|
if ((f instanceof ForwardingNode) && |
2253 |
|
|
(nextTab = ((ForwardingNode<K,V>)f).nextTable) != null) { |
2254 |
|
|
if (nextTab == nextTable && tab == table && |
2255 |
|
|
transferIndex > transferOrigin && (sc = sizeCtl) < -1 && |
2256 |
|
|
U.compareAndSwapInt(this, SIZECTL, sc, sc - 1)) |
2257 |
|
|
transfer(tab, nextTab); |
2258 |
|
|
return nextTab; |
2259 |
|
|
} |
2260 |
|
|
return table; |
2261 |
|
|
} |
2262 |
|
|
|
2263 |
|
|
/** |
2264 |
dl |
1.27 |
* Tries to presize table to accommodate the given number of elements. |
2265 |
|
|
* |
2266 |
|
|
* @param size number of elements (doesn't need to be perfectly accurate) |
2267 |
|
|
*/ |
2268 |
dl |
1.102 |
private final void tryPresize(int size) { |
2269 |
dl |
1.27 |
int c = (size >= (MAXIMUM_CAPACITY >>> 1)) ? MAXIMUM_CAPACITY : |
2270 |
|
|
tableSizeFor(size + (size >>> 1) + 1); |
2271 |
|
|
int sc; |
2272 |
|
|
while ((sc = sizeCtl) >= 0) { |
2273 |
dl |
1.102 |
Node<K,V>[] tab = table; int n; |
2274 |
dl |
1.27 |
if (tab == null || (n = tab.length) == 0) { |
2275 |
jsr166 |
1.30 |
n = (sc > c) ? sc : c; |
2276 |
dl |
1.82 |
if (U.compareAndSwapInt(this, SIZECTL, sc, -1)) { |
2277 |
dl |
1.27 |
try { |
2278 |
|
|
if (table == tab) { |
2279 |
dl |
1.102 |
@SuppressWarnings({"rawtypes","unchecked"}) |
2280 |
|
|
Node<K,V>[] nt = (Node<K,V>[])new Node[n]; |
2281 |
|
|
table = nt; |
2282 |
dl |
1.27 |
sc = n - (n >>> 2); |
2283 |
|
|
} |
2284 |
|
|
} finally { |
2285 |
|
|
sizeCtl = sc; |
2286 |
|
|
} |
2287 |
|
|
} |
2288 |
|
|
} |
2289 |
|
|
else if (c <= sc || n >= MAXIMUM_CAPACITY) |
2290 |
|
|
break; |
2291 |
dl |
1.82 |
else if (tab == table && |
2292 |
|
|
U.compareAndSwapInt(this, SIZECTL, sc, -2)) |
2293 |
|
|
transfer(tab, null); |
2294 |
dl |
1.27 |
} |
2295 |
|
|
} |
2296 |
|
|
|
2297 |
jsr166 |
1.92 |
/** |
2298 |
dl |
1.24 |
* Moves and/or copies the nodes in each bin to new table. See |
2299 |
|
|
* above for explanation. |
2300 |
|
|
*/ |
2301 |
dl |
1.102 |
private final void transfer(Node<K,V>[] tab, Node<K,V>[] nextTab) { |
2302 |
dl |
1.82 |
int n = tab.length, stride; |
2303 |
|
|
if ((stride = (NCPU > 1) ? (n >>> 3) / NCPU : n) < MIN_TRANSFER_STRIDE) |
2304 |
|
|
stride = MIN_TRANSFER_STRIDE; // subdivide range |
2305 |
|
|
if (nextTab == null) { // initiating |
2306 |
|
|
try { |
2307 |
dl |
1.102 |
@SuppressWarnings({"rawtypes","unchecked"}) |
2308 |
|
|
Node<K,V>[] nt = (Node<K,V>[])new Node[n << 1]; |
2309 |
|
|
nextTab = nt; |
2310 |
jsr166 |
1.83 |
} catch (Throwable ex) { // try to cope with OOME |
2311 |
dl |
1.82 |
sizeCtl = Integer.MAX_VALUE; |
2312 |
|
|
return; |
2313 |
|
|
} |
2314 |
|
|
nextTable = nextTab; |
2315 |
|
|
transferOrigin = n; |
2316 |
|
|
transferIndex = n; |
2317 |
dl |
1.102 |
ForwardingNode<K,V> rev = new ForwardingNode<K,V>(tab); |
2318 |
dl |
1.82 |
for (int k = n; k > 0;) { // progressively reveal ready slots |
2319 |
jsr166 |
1.83 |
int nextk = (k > stride) ? k - stride : 0; |
2320 |
dl |
1.82 |
for (int m = nextk; m < k; ++m) |
2321 |
|
|
nextTab[m] = rev; |
2322 |
|
|
for (int m = n + nextk; m < n + k; ++m) |
2323 |
|
|
nextTab[m] = rev; |
2324 |
|
|
U.putOrderedInt(this, TRANSFERORIGIN, k = nextk); |
2325 |
|
|
} |
2326 |
|
|
} |
2327 |
|
|
int nextn = nextTab.length; |
2328 |
dl |
1.102 |
ForwardingNode<K,V> fwd = new ForwardingNode<K,V>(nextTab); |
2329 |
dl |
1.82 |
boolean advance = true; |
2330 |
|
|
for (int i = 0, bound = 0;;) { |
2331 |
dl |
1.102 |
int nextIndex, nextBound, fh; Node<K,V> f; |
2332 |
dl |
1.82 |
while (advance) { |
2333 |
|
|
if (--i >= bound) |
2334 |
|
|
advance = false; |
2335 |
|
|
else if ((nextIndex = transferIndex) <= transferOrigin) { |
2336 |
|
|
i = -1; |
2337 |
|
|
advance = false; |
2338 |
|
|
} |
2339 |
|
|
else if (U.compareAndSwapInt |
2340 |
|
|
(this, TRANSFERINDEX, nextIndex, |
2341 |
jsr166 |
1.83 |
nextBound = (nextIndex > stride ? |
2342 |
dl |
1.82 |
nextIndex - stride : 0))) { |
2343 |
|
|
bound = nextBound; |
2344 |
|
|
i = nextIndex - 1; |
2345 |
|
|
advance = false; |
2346 |
|
|
} |
2347 |
|
|
} |
2348 |
|
|
if (i < 0 || i >= n || i + n >= nextn) { |
2349 |
|
|
for (int sc;;) { |
2350 |
|
|
if (U.compareAndSwapInt(this, SIZECTL, sc = sizeCtl, ++sc)) { |
2351 |
|
|
if (sc == -1) { |
2352 |
|
|
nextTable = null; |
2353 |
|
|
table = nextTab; |
2354 |
|
|
sizeCtl = (n << 1) - (n >>> 1); |
2355 |
|
|
} |
2356 |
|
|
return; |
2357 |
|
|
} |
2358 |
|
|
} |
2359 |
|
|
} |
2360 |
|
|
else if ((f = tabAt(tab, i)) == null) { |
2361 |
|
|
if (casTabAt(tab, i, null, fwd)) { |
2362 |
dl |
1.24 |
setTabAt(nextTab, i, null); |
2363 |
|
|
setTabAt(nextTab, i + n, null); |
2364 |
dl |
1.82 |
advance = true; |
2365 |
dl |
1.24 |
} |
2366 |
|
|
} |
2367 |
dl |
1.102 |
else if ((fh = f.hash) == MOVED) |
2368 |
|
|
advance = true; // already processed |
2369 |
|
|
else { |
2370 |
jsr166 |
1.83 |
synchronized (f) { |
2371 |
dl |
1.82 |
if (tabAt(tab, i) == f) { |
2372 |
dl |
1.102 |
Node<K,V> ln, hn; |
2373 |
|
|
if (fh >= 0) { |
2374 |
|
|
int runBit = fh & n; |
2375 |
|
|
Node<K,V> lastRun = f; |
2376 |
|
|
for (Node<K,V> p = f.next; p != null; p = p.next) { |
2377 |
|
|
int b = p.hash & n; |
2378 |
|
|
if (b != runBit) { |
2379 |
|
|
runBit = b; |
2380 |
|
|
lastRun = p; |
2381 |
|
|
} |
2382 |
dl |
1.82 |
} |
2383 |
dl |
1.102 |
if (runBit == 0) { |
2384 |
|
|
ln = lastRun; |
2385 |
|
|
hn = null; |
2386 |
dl |
1.82 |
} |
2387 |
|
|
else { |
2388 |
dl |
1.102 |
hn = lastRun; |
2389 |
|
|
ln = null; |
2390 |
|
|
} |
2391 |
|
|
for (Node<K,V> p = f; p != lastRun; p = p.next) { |
2392 |
|
|
int ph = p.hash; K pk = p.key; V pv = p.val; |
2393 |
|
|
if ((ph & n) == 0) |
2394 |
|
|
ln = new Node<K,V>(ph, pk, pv, ln); |
2395 |
|
|
else |
2396 |
|
|
hn = new Node<K,V>(ph, pk, pv, hn); |
2397 |
dl |
1.82 |
} |
2398 |
|
|
} |
2399 |
dl |
1.102 |
else if (f instanceof TreeBin) { |
2400 |
|
|
TreeBin<K,V> t = (TreeBin<K,V>)f; |
2401 |
|
|
TreeNode<K,V> lo = null, loTail = null; |
2402 |
|
|
TreeNode<K,V> hi = null, hiTail = null; |
2403 |
|
|
int lc = 0, hc = 0; |
2404 |
|
|
for (Node<K,V> e = t.first; e != null; e = e.next) { |
2405 |
|
|
int h = e.hash; |
2406 |
|
|
TreeNode<K,V> p = new TreeNode<K,V> |
2407 |
|
|
(h, e.key, e.val, null, null); |
2408 |
|
|
if ((h & n) == 0) { |
2409 |
|
|
if ((p.prev = loTail) == null) |
2410 |
|
|
lo = p; |
2411 |
|
|
else |
2412 |
|
|
loTail.next = p; |
2413 |
|
|
loTail = p; |
2414 |
|
|
++lc; |
2415 |
|
|
} |
2416 |
|
|
else { |
2417 |
|
|
if ((p.prev = hiTail) == null) |
2418 |
|
|
hi = p; |
2419 |
|
|
else |
2420 |
|
|
hiTail.next = p; |
2421 |
|
|
hiTail = p; |
2422 |
|
|
++hc; |
2423 |
|
|
} |
2424 |
|
|
} |
2425 |
jsr166 |
1.104 |
ln = (lc <= UNTREEIFY_THRESHOLD) ? untreeify(lo) : |
2426 |
|
|
(hc != 0) ? new TreeBin<K,V>(lo) : t; |
2427 |
|
|
hn = (hc <= UNTREEIFY_THRESHOLD) ? untreeify(hi) : |
2428 |
|
|
(lc != 0) ? new TreeBin<K,V>(hi) : t; |
2429 |
dl |
1.82 |
} |
2430 |
|
|
else |
2431 |
dl |
1.102 |
ln = hn = null; |
2432 |
dl |
1.82 |
setTabAt(nextTab, i, ln); |
2433 |
|
|
setTabAt(nextTab, i + n, hn); |
2434 |
dl |
1.24 |
setTabAt(tab, i, fwd); |
2435 |
dl |
1.82 |
advance = true; |
2436 |
dl |
1.24 |
} |
2437 |
|
|
} |
2438 |
|
|
} |
2439 |
|
|
} |
2440 |
|
|
} |
2441 |
|
|
|
2442 |
dl |
1.102 |
/* ---------------- Conversion from/to TreeBins -------------- */ |
2443 |
dl |
1.82 |
|
2444 |
dl |
1.102 |
/** |
2445 |
|
|
* Replaces all linked nodes in bin at given index unless table is |
2446 |
|
|
* too small, in which case resizes instead. |
2447 |
|
|
*/ |
2448 |
|
|
private final void treeifyBin(Node<K,V>[] tab, int index) { |
2449 |
|
|
Node<K,V> b; int n, sc; |
2450 |
|
|
if (tab != null) { |
2451 |
|
|
if ((n = tab.length) < MIN_TREEIFY_CAPACITY) { |
2452 |
|
|
if (tab == table && (sc = sizeCtl) >= 0 && |
2453 |
|
|
U.compareAndSwapInt(this, SIZECTL, sc, -2)) |
2454 |
|
|
transfer(tab, null); |
2455 |
dl |
1.38 |
} |
2456 |
dl |
1.102 |
else if ((b = tabAt(tab, index)) != null) { |
2457 |
|
|
synchronized (b) { |
2458 |
|
|
if (tabAt(tab, index) == b) { |
2459 |
|
|
TreeNode<K,V> hd = null, tl = null; |
2460 |
|
|
for (Node<K,V> e = b; e != null; e = e.next) { |
2461 |
|
|
TreeNode<K,V> p = |
2462 |
|
|
new TreeNode<K,V>(e.hash, e.key, e.val, |
2463 |
|
|
null, null); |
2464 |
|
|
if ((p.prev = tl) == null) |
2465 |
|
|
hd = p; |
2466 |
|
|
else |
2467 |
|
|
tl.next = p; |
2468 |
|
|
tl = p; |
2469 |
dl |
1.38 |
} |
2470 |
dl |
1.102 |
setTabAt(tab, index, new TreeBin<K,V>(hd)); |
2471 |
dl |
1.38 |
} |
2472 |
|
|
} |
2473 |
dl |
1.82 |
} |
2474 |
dl |
1.27 |
} |
2475 |
|
|
} |
2476 |
|
|
|
2477 |
dl |
1.102 |
/** |
2478 |
jsr166 |
1.105 |
* Returns a list on non-TreeNodes replacing those in given list. |
2479 |
dl |
1.102 |
*/ |
2480 |
|
|
static <K,V> Node<K,V> untreeify(Node<K,V> b) { |
2481 |
|
|
Node<K,V> hd = null, tl = null; |
2482 |
|
|
for (Node<K,V> q = b; q != null; q = q.next) { |
2483 |
|
|
Node<K,V> p = new Node<K,V>(q.hash, q.key, q.val, null); |
2484 |
|
|
if (tl == null) |
2485 |
|
|
hd = p; |
2486 |
|
|
else |
2487 |
|
|
tl.next = p; |
2488 |
|
|
tl = p; |
2489 |
|
|
} |
2490 |
|
|
return hd; |
2491 |
|
|
} |
2492 |
|
|
|
2493 |
|
|
/* ---------------- TreeNodes -------------- */ |
2494 |
dl |
1.14 |
|
2495 |
dl |
1.1 |
/** |
2496 |
dl |
1.102 |
* Nodes for use in TreeBins |
2497 |
dl |
1.14 |
*/ |
2498 |
dl |
1.102 |
static final class TreeNode<K,V> extends Node<K,V> { |
2499 |
|
|
TreeNode<K,V> parent; // red-black tree links |
2500 |
|
|
TreeNode<K,V> left; |
2501 |
|
|
TreeNode<K,V> right; |
2502 |
|
|
TreeNode<K,V> prev; // needed to unlink next upon deletion |
2503 |
|
|
boolean red; |
2504 |
|
|
|
2505 |
|
|
TreeNode(int hash, K key, V val, Node<K,V> next, |
2506 |
|
|
TreeNode<K,V> parent) { |
2507 |
|
|
super(hash, key, val, next); |
2508 |
|
|
this.parent = parent; |
2509 |
|
|
} |
2510 |
|
|
|
2511 |
|
|
Node<K,V> find(int h, Object k) { |
2512 |
|
|
return findTreeNode(h, k, null); |
2513 |
|
|
} |
2514 |
|
|
|
2515 |
|
|
/** |
2516 |
|
|
* Returns the TreeNode (or null if not found) for the given key |
2517 |
|
|
* starting at given root. |
2518 |
|
|
*/ |
2519 |
|
|
final TreeNode<K,V> findTreeNode(int h, Object k, Class<?> kc) { |
2520 |
|
|
if (k != null) { |
2521 |
|
|
TreeNode<K,V> p = this; |
2522 |
|
|
do { |
2523 |
|
|
int ph, dir; K pk; TreeNode<K,V> q; |
2524 |
|
|
TreeNode<K,V> pl = p.left, pr = p.right; |
2525 |
|
|
if ((ph = p.hash) > h) |
2526 |
|
|
p = pl; |
2527 |
|
|
else if (ph < h) |
2528 |
|
|
p = pr; |
2529 |
|
|
else if ((pk = p.key) == k || (pk != null && k.equals(pk))) |
2530 |
|
|
return p; |
2531 |
|
|
else if (pl == null && pr == null) |
2532 |
|
|
break; |
2533 |
jsr166 |
1.103 |
else if ((kc != null || |
2534 |
dl |
1.102 |
(kc = comparableClassFor(k)) != null) && |
2535 |
|
|
(dir = compareComparables(kc, k, pk)) != 0) |
2536 |
|
|
p = (dir < 0) ? pl : pr; |
2537 |
|
|
else if (pl == null) |
2538 |
|
|
p = pr; |
2539 |
jsr166 |
1.103 |
else if (pr == null || |
2540 |
dl |
1.102 |
(q = pr.findTreeNode(h, k, kc)) == null) |
2541 |
|
|
p = pl; |
2542 |
|
|
else |
2543 |
|
|
return q; |
2544 |
|
|
} while (p != null); |
2545 |
|
|
} |
2546 |
|
|
return null; |
2547 |
|
|
} |
2548 |
|
|
} |
2549 |
|
|
|
2550 |
|
|
/* ---------------- TreeBins -------------- */ |
2551 |
|
|
|
2552 |
|
|
/** |
2553 |
|
|
* TreeNodes used at the heads of bins. TreeBins do not hold user |
2554 |
|
|
* keys or values, but instead point to list of TreeNodes and |
2555 |
|
|
* their root. They also maintain a parasitic read-write lock |
2556 |
|
|
* forcing writers (who hold bin lock) to wait for readers (who do |
2557 |
|
|
* not) to complete before tree restructuring operations. |
2558 |
|
|
*/ |
2559 |
|
|
static final class TreeBin<K,V> extends Node<K,V> { |
2560 |
|
|
TreeNode<K,V> root; |
2561 |
|
|
volatile TreeNode<K,V> first; |
2562 |
|
|
volatile Thread waiter; |
2563 |
|
|
volatile int lockState; |
2564 |
|
|
// values for lockState |
2565 |
|
|
static final int WRITER = 1; // set while holding write lock |
2566 |
|
|
static final int WAITER = 2; // set when waiting for write lock |
2567 |
|
|
static final int READER = 4; // increment value for setting read lock |
2568 |
|
|
|
2569 |
|
|
/** |
2570 |
|
|
* Creates bin with initial set of nodes headed by b. |
2571 |
|
|
*/ |
2572 |
|
|
TreeBin(TreeNode<K,V> b) { |
2573 |
|
|
super(TREEBIN, null, null, null); |
2574 |
|
|
this.first = b; |
2575 |
|
|
TreeNode<K,V> r = null; |
2576 |
|
|
for (TreeNode<K,V> x = b, next; x != null; x = next) { |
2577 |
|
|
next = (TreeNode<K,V>)x.next; |
2578 |
|
|
x.left = x.right = null; |
2579 |
|
|
if (r == null) { |
2580 |
|
|
x.parent = null; |
2581 |
|
|
x.red = false; |
2582 |
|
|
r = x; |
2583 |
|
|
} |
2584 |
|
|
else { |
2585 |
|
|
Object key = x.key; |
2586 |
|
|
int hash = x.hash; |
2587 |
|
|
Class<?> kc = null; |
2588 |
|
|
for (TreeNode<K,V> p = r;;) { |
2589 |
|
|
int dir, ph; |
2590 |
|
|
if ((ph = p.hash) > hash) |
2591 |
|
|
dir = -1; |
2592 |
|
|
else if (ph < hash) |
2593 |
|
|
dir = 1; |
2594 |
|
|
else if ((kc != null || |
2595 |
|
|
(kc = comparableClassFor(key)) != null)) |
2596 |
|
|
dir = compareComparables(kc, key, p.key); |
2597 |
|
|
else |
2598 |
|
|
dir = 0; |
2599 |
|
|
TreeNode<K,V> xp = p; |
2600 |
|
|
if ((p = (dir <= 0) ? p.left : p.right) == null) { |
2601 |
|
|
x.parent = xp; |
2602 |
|
|
if (dir <= 0) |
2603 |
|
|
xp.left = x; |
2604 |
|
|
else |
2605 |
|
|
xp.right = x; |
2606 |
|
|
r = balanceInsertion(r, x); |
2607 |
|
|
break; |
2608 |
|
|
} |
2609 |
|
|
} |
2610 |
|
|
} |
2611 |
|
|
} |
2612 |
|
|
this.root = r; |
2613 |
|
|
} |
2614 |
|
|
|
2615 |
|
|
/** |
2616 |
jsr166 |
1.105 |
* Acquires write lock for tree restructuring. |
2617 |
dl |
1.102 |
*/ |
2618 |
|
|
private final void lockRoot() { |
2619 |
|
|
if (!U.compareAndSwapInt(this, LOCKSTATE, 0, WRITER)) |
2620 |
|
|
contendedLock(); // offload to separate method |
2621 |
|
|
} |
2622 |
|
|
|
2623 |
|
|
/** |
2624 |
jsr166 |
1.105 |
* Releases write lock for tree restructuring. |
2625 |
dl |
1.102 |
*/ |
2626 |
|
|
private final void unlockRoot() { |
2627 |
|
|
lockState = 0; |
2628 |
|
|
} |
2629 |
dl |
1.14 |
|
2630 |
dl |
1.102 |
/** |
2631 |
jsr166 |
1.105 |
* Possibly blocks awaiting root lock. |
2632 |
dl |
1.102 |
*/ |
2633 |
|
|
private final void contendedLock() { |
2634 |
|
|
boolean waiting = false; |
2635 |
|
|
for (int s;;) { |
2636 |
|
|
if (((s = lockState) & WRITER) == 0) { |
2637 |
|
|
if (U.compareAndSwapInt(this, LOCKSTATE, s, WRITER)) { |
2638 |
|
|
if (waiting) |
2639 |
|
|
waiter = null; |
2640 |
|
|
return; |
2641 |
|
|
} |
2642 |
|
|
} |
2643 |
|
|
else if ((s | WAITER) == 0) { |
2644 |
|
|
if (U.compareAndSwapInt(this, LOCKSTATE, s, s | WAITER)) { |
2645 |
|
|
waiting = true; |
2646 |
|
|
waiter = Thread.currentThread(); |
2647 |
|
|
} |
2648 |
|
|
} |
2649 |
|
|
else if (waiting) |
2650 |
|
|
LockSupport.park(this); |
2651 |
|
|
} |
2652 |
dl |
1.14 |
} |
2653 |
|
|
|
2654 |
dl |
1.102 |
/** |
2655 |
|
|
* Returns matching node or null if none. Tries to search |
2656 |
|
|
* using tree compareisons from root, but continues linear |
2657 |
|
|
* search when lock not available. |
2658 |
|
|
*/ |
2659 |
|
|
final Node<K,V> find(int h, Object k) { |
2660 |
|
|
if (k != null) { |
2661 |
|
|
for (Node<K,V> e = first; e != null; e = e.next) { |
2662 |
|
|
int s; K ek; |
2663 |
|
|
if (((s = lockState) & (WAITER|WRITER)) != 0) { |
2664 |
|
|
if (e.hash == h && |
2665 |
|
|
((ek = e.key) == k || (ek != null && k.equals(ek)))) |
2666 |
|
|
return e; |
2667 |
|
|
} |
2668 |
|
|
else if (U.compareAndSwapInt(this, LOCKSTATE, s, |
2669 |
|
|
s + READER)) { |
2670 |
|
|
TreeNode<K,V> r, p; |
2671 |
|
|
try { |
2672 |
|
|
p = ((r = root) == null ? null : |
2673 |
|
|
r.findTreeNode(h, k, null)); |
2674 |
|
|
} finally { |
2675 |
|
|
Thread w; |
2676 |
|
|
int ls; |
2677 |
|
|
do {} while (!U.compareAndSwapInt |
2678 |
|
|
(this, LOCKSTATE, |
2679 |
|
|
ls = lockState, ls - READER)); |
2680 |
|
|
if (ls == (READER|WAITER) && (w = waiter) != null) |
2681 |
|
|
LockSupport.unpark(w); |
2682 |
|
|
} |
2683 |
|
|
return p; |
2684 |
|
|
} |
2685 |
|
|
} |
2686 |
dl |
1.79 |
} |
2687 |
dl |
1.102 |
return null; |
2688 |
dl |
1.41 |
} |
2689 |
|
|
|
2690 |
|
|
/** |
2691 |
dl |
1.102 |
* Finds or adds a node. |
2692 |
|
|
* @return null if added |
2693 |
dl |
1.41 |
*/ |
2694 |
dl |
1.102 |
final TreeNode<K,V> putTreeVal(int h, K k, V v) { |
2695 |
|
|
Class<?> kc = null; |
2696 |
|
|
for (TreeNode<K,V> p = root;;) { |
2697 |
|
|
int dir, ph; K pk; TreeNode<K,V> q, pr; |
2698 |
|
|
if (p == null) { |
2699 |
|
|
first = root = new TreeNode<K,V>(h, k, v, null, null); |
2700 |
|
|
break; |
2701 |
|
|
} |
2702 |
|
|
else if ((ph = p.hash) > h) |
2703 |
|
|
dir = -1; |
2704 |
|
|
else if (ph < h) |
2705 |
|
|
dir = 1; |
2706 |
|
|
else if ((pk = p.key) == k || (pk != null && k.equals(pk))) |
2707 |
|
|
return p; |
2708 |
|
|
else if ((kc == null && |
2709 |
|
|
(kc = comparableClassFor(k)) == null) || |
2710 |
|
|
(dir = compareComparables(kc, k, pk)) == 0) { |
2711 |
|
|
if (p.left == null) |
2712 |
|
|
dir = 1; |
2713 |
|
|
else if ((pr = p.right) == null || |
2714 |
|
|
(q = pr.findTreeNode(h, k, kc)) == null) |
2715 |
|
|
dir = -1; |
2716 |
|
|
else |
2717 |
|
|
return q; |
2718 |
|
|
} |
2719 |
|
|
TreeNode<K,V> xp = p; |
2720 |
|
|
if ((p = (dir < 0) ? p.left : p.right) == null) { |
2721 |
|
|
TreeNode<K,V> x, f = first; |
2722 |
|
|
first = x = new TreeNode<K,V>(h, k, v, f, xp); |
2723 |
|
|
if (f != null) |
2724 |
|
|
f.prev = x; |
2725 |
|
|
if (dir < 0) |
2726 |
|
|
xp.left = x; |
2727 |
dl |
1.63 |
else |
2728 |
dl |
1.102 |
xp.right = x; |
2729 |
|
|
if (!xp.red) |
2730 |
|
|
x.red = true; |
2731 |
|
|
else { |
2732 |
|
|
lockRoot(); |
2733 |
|
|
try { |
2734 |
|
|
root = balanceInsertion(root, x); |
2735 |
|
|
} finally { |
2736 |
|
|
unlockRoot(); |
2737 |
dl |
1.38 |
} |
2738 |
dl |
1.102 |
} |
2739 |
|
|
break; |
2740 |
dl |
1.1 |
} |
2741 |
dl |
1.102 |
} |
2742 |
|
|
assert checkInvariants(root); |
2743 |
|
|
return null; |
2744 |
dl |
1.1 |
} |
2745 |
dl |
1.41 |
|
2746 |
dl |
1.102 |
/** |
2747 |
|
|
* Removes the given node, that must be present before this |
2748 |
|
|
* call. This is messier than typical red-black deletion code |
2749 |
|
|
* because we cannot swap the contents of an interior node |
2750 |
|
|
* with a leaf successor that is pinned by "next" pointers |
2751 |
|
|
* that are accessible independently of lock. So instead we |
2752 |
|
|
* swap the tree linkages. |
2753 |
|
|
* |
2754 |
jsr166 |
1.106 |
* @return true if now too small, so should be untreeified |
2755 |
dl |
1.102 |
*/ |
2756 |
|
|
final boolean removeTreeNode(TreeNode<K,V> p) { |
2757 |
|
|
TreeNode<K,V> next = (TreeNode<K,V>)p.next; |
2758 |
|
|
TreeNode<K,V> pred = p.prev; // unlink traversal pointers |
2759 |
|
|
TreeNode<K,V> r, rl; |
2760 |
|
|
if (pred == null) |
2761 |
|
|
first = next; |
2762 |
|
|
else |
2763 |
|
|
pred.next = next; |
2764 |
|
|
if (next != null) |
2765 |
|
|
next.prev = pred; |
2766 |
|
|
if (first == null) { |
2767 |
|
|
root = null; |
2768 |
|
|
return true; |
2769 |
|
|
} |
2770 |
|
|
if ((r = root) == null || r.right == null || // too small |
2771 |
|
|
(rl = r.left) == null || rl.left == null) |
2772 |
|
|
return true; |
2773 |
|
|
lockRoot(); |
2774 |
|
|
try { |
2775 |
|
|
TreeNode<K,V> replacement; |
2776 |
|
|
TreeNode<K,V> pl = p.left; |
2777 |
|
|
TreeNode<K,V> pr = p.right; |
2778 |
|
|
if (pl != null && pr != null) { |
2779 |
|
|
TreeNode<K,V> s = pr, sl; |
2780 |
|
|
while ((sl = s.left) != null) // find successor |
2781 |
|
|
s = sl; |
2782 |
|
|
boolean c = s.red; s.red = p.red; p.red = c; // swap colors |
2783 |
|
|
TreeNode<K,V> sr = s.right; |
2784 |
|
|
TreeNode<K,V> pp = p.parent; |
2785 |
|
|
if (s == pr) { // p was s's direct parent |
2786 |
|
|
p.parent = s; |
2787 |
|
|
s.right = p; |
2788 |
|
|
} |
2789 |
|
|
else { |
2790 |
|
|
TreeNode<K,V> sp = s.parent; |
2791 |
|
|
if ((p.parent = sp) != null) { |
2792 |
|
|
if (s == sp.left) |
2793 |
|
|
sp.left = p; |
2794 |
|
|
else |
2795 |
|
|
sp.right = p; |
2796 |
|
|
} |
2797 |
|
|
if ((s.right = pr) != null) |
2798 |
|
|
pr.parent = s; |
2799 |
|
|
} |
2800 |
|
|
p.left = null; |
2801 |
|
|
if ((p.right = sr) != null) |
2802 |
|
|
sr.parent = p; |
2803 |
|
|
if ((s.left = pl) != null) |
2804 |
|
|
pl.parent = s; |
2805 |
|
|
if ((s.parent = pp) == null) |
2806 |
|
|
r = s; |
2807 |
|
|
else if (p == pp.left) |
2808 |
|
|
pp.left = s; |
2809 |
|
|
else |
2810 |
|
|
pp.right = s; |
2811 |
|
|
if (sr != null) |
2812 |
|
|
replacement = sr; |
2813 |
|
|
else |
2814 |
|
|
replacement = p; |
2815 |
|
|
} |
2816 |
|
|
else if (pl != null) |
2817 |
|
|
replacement = pl; |
2818 |
|
|
else if (pr != null) |
2819 |
|
|
replacement = pr; |
2820 |
|
|
else |
2821 |
|
|
replacement = p; |
2822 |
|
|
if (replacement != p) { |
2823 |
|
|
TreeNode<K,V> pp = replacement.parent = p.parent; |
2824 |
|
|
if (pp == null) |
2825 |
|
|
r = replacement; |
2826 |
|
|
else if (p == pp.left) |
2827 |
|
|
pp.left = replacement; |
2828 |
|
|
else |
2829 |
|
|
pp.right = replacement; |
2830 |
|
|
p.left = p.right = p.parent = null; |
2831 |
|
|
} |
2832 |
|
|
|
2833 |
|
|
root = (p.red) ? r : balanceDeletion(r, replacement); |
2834 |
|
|
|
2835 |
|
|
if (p == replacement) { // detach pointers |
2836 |
|
|
TreeNode<K,V> pp; |
2837 |
|
|
if ((pp = p.parent) != null) { |
2838 |
|
|
if (p == pp.left) |
2839 |
|
|
pp.left = null; |
2840 |
|
|
else if (p == pp.right) |
2841 |
|
|
pp.right = null; |
2842 |
|
|
p.parent = null; |
2843 |
|
|
} |
2844 |
|
|
} |
2845 |
|
|
} finally { |
2846 |
|
|
unlockRoot(); |
2847 |
|
|
} |
2848 |
|
|
assert checkInvariants(root); |
2849 |
|
|
return false; |
2850 |
dl |
1.41 |
} |
2851 |
|
|
|
2852 |
dl |
1.102 |
/* ------------------------------------------------------------ */ |
2853 |
|
|
// Red-black tree methods, all adapted from CLR |
2854 |
|
|
|
2855 |
|
|
static <K,V> TreeNode<K,V> rotateLeft(TreeNode<K,V> root, |
2856 |
|
|
TreeNode<K,V> p) { |
2857 |
|
|
TreeNode<K,V> r, pp, rl; |
2858 |
|
|
if (p != null && (r = p.right) != null) { |
2859 |
|
|
if ((rl = p.right = r.left) != null) |
2860 |
|
|
rl.parent = p; |
2861 |
|
|
if ((pp = r.parent = p.parent) == null) |
2862 |
|
|
(root = r).red = false; |
2863 |
|
|
else if (pp.left == p) |
2864 |
|
|
pp.left = r; |
2865 |
|
|
else |
2866 |
|
|
pp.right = r; |
2867 |
|
|
r.left = p; |
2868 |
|
|
p.parent = r; |
2869 |
|
|
} |
2870 |
|
|
return root; |
2871 |
dl |
1.41 |
} |
2872 |
|
|
|
2873 |
dl |
1.102 |
static <K,V> TreeNode<K,V> rotateRight(TreeNode<K,V> root, |
2874 |
|
|
TreeNode<K,V> p) { |
2875 |
|
|
TreeNode<K,V> l, pp, lr; |
2876 |
|
|
if (p != null && (l = p.left) != null) { |
2877 |
|
|
if ((lr = p.left = l.right) != null) |
2878 |
|
|
lr.parent = p; |
2879 |
|
|
if ((pp = l.parent = p.parent) == null) |
2880 |
|
|
(root = l).red = false; |
2881 |
|
|
else if (pp.right == p) |
2882 |
|
|
pp.right = l; |
2883 |
|
|
else |
2884 |
|
|
pp.left = l; |
2885 |
|
|
l.right = p; |
2886 |
|
|
p.parent = l; |
2887 |
|
|
} |
2888 |
|
|
return root; |
2889 |
|
|
} |
2890 |
dl |
1.79 |
|
2891 |
dl |
1.102 |
static <K,V> TreeNode<K,V> balanceInsertion(TreeNode<K,V> root, |
2892 |
|
|
TreeNode<K,V> x) { |
2893 |
|
|
x.red = true; |
2894 |
|
|
for (TreeNode<K,V> xp, xpp, xppl, xppr;;) { |
2895 |
|
|
if ((xp = x.parent) == null) { |
2896 |
|
|
x.red = false; |
2897 |
|
|
return x; |
2898 |
|
|
} |
2899 |
|
|
else if (!xp.red || (xpp = xp.parent) == null) |
2900 |
|
|
return root; |
2901 |
|
|
if (xp == (xppl = xpp.left)) { |
2902 |
|
|
if ((xppr = xpp.right) != null && xppr.red) { |
2903 |
|
|
xppr.red = false; |
2904 |
|
|
xp.red = false; |
2905 |
|
|
xpp.red = true; |
2906 |
|
|
x = xpp; |
2907 |
|
|
} |
2908 |
|
|
else { |
2909 |
|
|
if (x == xp.right) { |
2910 |
|
|
root = rotateLeft(root, x = xp); |
2911 |
|
|
xpp = (xp = x.parent) == null ? null : xp.parent; |
2912 |
|
|
} |
2913 |
|
|
if (xp != null) { |
2914 |
|
|
xp.red = false; |
2915 |
|
|
if (xpp != null) { |
2916 |
|
|
xpp.red = true; |
2917 |
|
|
root = rotateRight(root, xpp); |
2918 |
|
|
} |
2919 |
|
|
} |
2920 |
|
|
} |
2921 |
|
|
} |
2922 |
|
|
else { |
2923 |
|
|
if (xppl != null && xppl.red) { |
2924 |
|
|
xppl.red = false; |
2925 |
|
|
xp.red = false; |
2926 |
|
|
xpp.red = true; |
2927 |
|
|
x = xpp; |
2928 |
|
|
} |
2929 |
|
|
else { |
2930 |
|
|
if (x == xp.left) { |
2931 |
|
|
root = rotateRight(root, x = xp); |
2932 |
|
|
xpp = (xp = x.parent) == null ? null : xp.parent; |
2933 |
|
|
} |
2934 |
|
|
if (xp != null) { |
2935 |
|
|
xp.red = false; |
2936 |
|
|
if (xpp != null) { |
2937 |
|
|
xpp.red = true; |
2938 |
|
|
root = rotateLeft(root, xpp); |
2939 |
|
|
} |
2940 |
|
|
} |
2941 |
|
|
} |
2942 |
|
|
} |
2943 |
|
|
} |
2944 |
|
|
} |
2945 |
dl |
1.79 |
|
2946 |
dl |
1.102 |
static <K,V> TreeNode<K,V> balanceDeletion(TreeNode<K,V> root, |
2947 |
|
|
TreeNode<K,V> x) { |
2948 |
|
|
for (TreeNode<K,V> xp, xpl, xpr;;) { |
2949 |
|
|
if (x == null || x == root) |
2950 |
|
|
return root; |
2951 |
|
|
else if ((xp = x.parent) == null) { |
2952 |
|
|
x.red = false; |
2953 |
|
|
return x; |
2954 |
|
|
} |
2955 |
|
|
else if (x.red) { |
2956 |
|
|
x.red = false; |
2957 |
|
|
return root; |
2958 |
|
|
} |
2959 |
|
|
else if ((xpl = xp.left) == x) { |
2960 |
|
|
if ((xpr = xp.right) != null && xpr.red) { |
2961 |
|
|
xpr.red = false; |
2962 |
|
|
xp.red = true; |
2963 |
|
|
root = rotateLeft(root, xp); |
2964 |
|
|
xpr = (xp = x.parent) == null ? null : xp.right; |
2965 |
|
|
} |
2966 |
|
|
if (xpr == null) |
2967 |
|
|
x = xp; |
2968 |
|
|
else { |
2969 |
|
|
TreeNode<K,V> sl = xpr.left, sr = xpr.right; |
2970 |
|
|
if ((sr == null || !sr.red) && |
2971 |
|
|
(sl == null || !sl.red)) { |
2972 |
|
|
xpr.red = true; |
2973 |
|
|
x = xp; |
2974 |
|
|
} |
2975 |
|
|
else { |
2976 |
|
|
if (sr == null || !sr.red) { |
2977 |
|
|
if (sl != null) |
2978 |
|
|
sl.red = false; |
2979 |
|
|
xpr.red = true; |
2980 |
|
|
root = rotateRight(root, xpr); |
2981 |
|
|
xpr = (xp = x.parent) == null ? |
2982 |
|
|
null : xp.right; |
2983 |
|
|
} |
2984 |
|
|
if (xpr != null) { |
2985 |
|
|
xpr.red = (xp == null) ? false : xp.red; |
2986 |
|
|
if ((sr = xpr.right) != null) |
2987 |
|
|
sr.red = false; |
2988 |
|
|
} |
2989 |
|
|
if (xp != null) { |
2990 |
|
|
xp.red = false; |
2991 |
|
|
root = rotateLeft(root, xp); |
2992 |
|
|
} |
2993 |
|
|
x = root; |
2994 |
|
|
} |
2995 |
|
|
} |
2996 |
|
|
} |
2997 |
|
|
else { // symmetric |
2998 |
|
|
if (xpl != null && xpl.red) { |
2999 |
|
|
xpl.red = false; |
3000 |
|
|
xp.red = true; |
3001 |
|
|
root = rotateRight(root, xp); |
3002 |
|
|
xpl = (xp = x.parent) == null ? null : xp.left; |
3003 |
|
|
} |
3004 |
|
|
if (xpl == null) |
3005 |
|
|
x = xp; |
3006 |
|
|
else { |
3007 |
|
|
TreeNode<K,V> sl = xpl.left, sr = xpl.right; |
3008 |
|
|
if ((sl == null || !sl.red) && |
3009 |
|
|
(sr == null || !sr.red)) { |
3010 |
|
|
xpl.red = true; |
3011 |
|
|
x = xp; |
3012 |
|
|
} |
3013 |
|
|
else { |
3014 |
|
|
if (sl == null || !sl.red) { |
3015 |
|
|
if (sr != null) |
3016 |
|
|
sr.red = false; |
3017 |
|
|
xpl.red = true; |
3018 |
|
|
root = rotateLeft(root, xpl); |
3019 |
|
|
xpl = (xp = x.parent) == null ? |
3020 |
|
|
null : xp.left; |
3021 |
|
|
} |
3022 |
|
|
if (xpl != null) { |
3023 |
|
|
xpl.red = (xp == null) ? false : xp.red; |
3024 |
|
|
if ((sl = xpl.left) != null) |
3025 |
|
|
sl.red = false; |
3026 |
|
|
} |
3027 |
|
|
if (xp != null) { |
3028 |
|
|
xp.red = false; |
3029 |
|
|
root = rotateRight(root, xp); |
3030 |
|
|
} |
3031 |
|
|
x = root; |
3032 |
|
|
} |
3033 |
|
|
} |
3034 |
|
|
} |
3035 |
|
|
} |
3036 |
|
|
} |
3037 |
jsr166 |
1.103 |
|
3038 |
dl |
1.79 |
/** |
3039 |
dl |
1.102 |
* Recursive invariant check |
3040 |
dl |
1.79 |
*/ |
3041 |
dl |
1.102 |
static <K,V> boolean checkInvariants(TreeNode<K,V> t) { |
3042 |
|
|
TreeNode<K,V> tp = t.parent, tl = t.left, tr = t.right, |
3043 |
|
|
tb = t.prev, tn = (TreeNode<K,V>)t.next; |
3044 |
|
|
if (tb != null && tb.next != t) |
3045 |
|
|
return false; |
3046 |
|
|
if (tn != null && tn.prev != t) |
3047 |
|
|
return false; |
3048 |
|
|
if (tp != null && t != tp.left && t != tp.right) |
3049 |
|
|
return false; |
3050 |
|
|
if (tl != null && (tl.parent != t || tl.hash > t.hash)) |
3051 |
|
|
return false; |
3052 |
|
|
if (tr != null && (tr.parent != t || tr.hash < t.hash)) |
3053 |
|
|
return false; |
3054 |
|
|
if (t.red && tl != null && tl.red && tr != null && tr.red) |
3055 |
|
|
return false; |
3056 |
|
|
if (tl != null && !checkInvariants(tl)) |
3057 |
|
|
return false; |
3058 |
|
|
if (tr != null && !checkInvariants(tr)) |
3059 |
|
|
return false; |
3060 |
|
|
return true; |
3061 |
dl |
1.79 |
} |
3062 |
|
|
|
3063 |
dl |
1.102 |
private static final sun.misc.Unsafe U; |
3064 |
|
|
private static final long LOCKSTATE; |
3065 |
|
|
static { |
3066 |
|
|
try { |
3067 |
|
|
U = getUnsafe(); |
3068 |
|
|
Class<?> k = TreeBin.class; |
3069 |
|
|
LOCKSTATE = U.objectFieldOffset |
3070 |
|
|
(k.getDeclaredField("lockState")); |
3071 |
|
|
} catch (Exception e) { |
3072 |
|
|
throw new Error(e); |
3073 |
|
|
} |
3074 |
|
|
} |
3075 |
dl |
1.1 |
} |
3076 |
|
|
|
3077 |
dl |
1.102 |
/* ----------------Table Traversal -------------- */ |
3078 |
dl |
1.1 |
|
3079 |
|
|
/** |
3080 |
dl |
1.102 |
* Encapsulates traversal for methods such as containsValue; also |
3081 |
|
|
* serves as a base class for other iterators and spliterators. |
3082 |
|
|
* |
3083 |
|
|
* Method advance visits once each still-valid node that was |
3084 |
|
|
* reachable upon iterator construction. It might miss some that |
3085 |
|
|
* were added to a bin after the bin was visited, which is OK wrt |
3086 |
|
|
* consistency guarantees. Maintaining this property in the face |
3087 |
|
|
* of possible ongoing resizes requires a fair amount of |
3088 |
|
|
* bookkeeping state that is difficult to optimize away amidst |
3089 |
|
|
* volatile accesses. Even so, traversal maintains reasonable |
3090 |
|
|
* throughput. |
3091 |
dl |
1.1 |
* |
3092 |
dl |
1.102 |
* Normally, iteration proceeds bin-by-bin traversing lists. |
3093 |
|
|
* However, if the table has been resized, then all future steps |
3094 |
|
|
* must traverse both the bin at the current index as well as at |
3095 |
|
|
* (index + baseSize); and so on for further resizings. To |
3096 |
|
|
* paranoically cope with potential sharing by users of iterators |
3097 |
|
|
* across threads, iteration terminates if a bounds checks fails |
3098 |
|
|
* for a table read. |
3099 |
dl |
1.1 |
*/ |
3100 |
dl |
1.102 |
static class Traverser<K,V> { |
3101 |
|
|
Node<K,V>[] tab; // current table; updated if resized |
3102 |
|
|
Node<K,V> next; // the next entry to use |
3103 |
|
|
int index; // index of bin to use next |
3104 |
|
|
int baseIndex; // current index of initial table |
3105 |
|
|
int baseLimit; // index bound for initial table |
3106 |
|
|
final int baseSize; // initial table size |
3107 |
|
|
|
3108 |
|
|
Traverser(Node<K,V>[] tab, int size, int index, int limit) { |
3109 |
|
|
this.tab = tab; |
3110 |
|
|
this.baseSize = size; |
3111 |
|
|
this.baseIndex = this.index = index; |
3112 |
|
|
this.baseLimit = limit; |
3113 |
|
|
this.next = null; |
3114 |
|
|
} |
3115 |
dl |
1.1 |
|
3116 |
dl |
1.102 |
/** |
3117 |
|
|
* Advances if possible, returning next valid node, or null if none. |
3118 |
|
|
*/ |
3119 |
|
|
final Node<K,V> advance() { |
3120 |
|
|
Node<K,V> e; |
3121 |
|
|
if ((e = next) != null) |
3122 |
|
|
e = e.next; |
3123 |
|
|
for (;;) { |
3124 |
|
|
Node<K,V>[] t; int i, n; K ek; // must use locals in checks |
3125 |
|
|
if (e != null) |
3126 |
|
|
return next = e; |
3127 |
|
|
if (baseIndex >= baseLimit || (t = tab) == null || |
3128 |
|
|
(n = t.length) <= (i = index) || i < 0) |
3129 |
|
|
return next = null; |
3130 |
|
|
if ((e = tabAt(t, index)) != null && e.hash < 0) { |
3131 |
|
|
if (e instanceof ForwardingNode) { |
3132 |
|
|
tab = ((ForwardingNode<K,V>)e).nextTable; |
3133 |
|
|
e = null; |
3134 |
|
|
continue; |
3135 |
dl |
1.75 |
} |
3136 |
dl |
1.102 |
else if (e instanceof TreeBin) |
3137 |
|
|
e = ((TreeBin<K,V>)e).first; |
3138 |
|
|
else |
3139 |
|
|
e = null; |
3140 |
dl |
1.75 |
} |
3141 |
dl |
1.102 |
if ((index += baseSize) >= n) |
3142 |
|
|
index = ++baseIndex; // visit upper slots if present |
3143 |
dl |
1.24 |
} |
3144 |
|
|
} |
3145 |
dl |
1.75 |
} |
3146 |
|
|
|
3147 |
|
|
/** |
3148 |
dl |
1.102 |
* Base of key, value, and entry Iterators. Adds fields to |
3149 |
jsr166 |
1.105 |
* Traverser to support iterator.remove. |
3150 |
dl |
1.75 |
*/ |
3151 |
dl |
1.102 |
static class BaseIterator<K,V> extends Traverser<K,V> { |
3152 |
|
|
final ConcurrentHashMapV8<K,V> map; |
3153 |
|
|
Node<K,V> lastReturned; |
3154 |
|
|
BaseIterator(Node<K,V>[] tab, int size, int index, int limit, |
3155 |
|
|
ConcurrentHashMapV8<K,V> map) { |
3156 |
|
|
super(tab, size, index, limit); |
3157 |
|
|
this.map = map; |
3158 |
|
|
advance(); |
3159 |
|
|
} |
3160 |
|
|
|
3161 |
|
|
public final boolean hasNext() { return next != null; } |
3162 |
|
|
public final boolean hasMoreElements() { return next != null; } |
3163 |
|
|
|
3164 |
|
|
public final void remove() { |
3165 |
|
|
Node<K,V> p; |
3166 |
|
|
if ((p = lastReturned) == null) |
3167 |
|
|
throw new IllegalStateException(); |
3168 |
|
|
lastReturned = null; |
3169 |
|
|
map.replaceNode(p.key, null, null); |
3170 |
|
|
} |
3171 |
dl |
1.75 |
} |
3172 |
|
|
|
3173 |
dl |
1.102 |
static final class KeyIterator<K,V> extends BaseIterator<K,V> |
3174 |
|
|
implements Iterator<K>, Enumeration<K> { |
3175 |
|
|
KeyIterator(Node<K,V>[] tab, int index, int size, int limit, |
3176 |
|
|
ConcurrentHashMapV8<K,V> map) { |
3177 |
|
|
super(tab, index, size, limit, map); |
3178 |
|
|
} |
3179 |
|
|
|
3180 |
|
|
public final K next() { |
3181 |
|
|
Node<K,V> p; |
3182 |
|
|
if ((p = next) == null) |
3183 |
|
|
throw new NoSuchElementException(); |
3184 |
|
|
K k = p.key; |
3185 |
|
|
lastReturned = p; |
3186 |
|
|
advance(); |
3187 |
|
|
return k; |
3188 |
|
|
} |
3189 |
|
|
|
3190 |
|
|
public final K nextElement() { return next(); } |
3191 |
dl |
1.75 |
} |
3192 |
|
|
|
3193 |
dl |
1.102 |
static final class ValueIterator<K,V> extends BaseIterator<K,V> |
3194 |
|
|
implements Iterator<V>, Enumeration<V> { |
3195 |
|
|
ValueIterator(Node<K,V>[] tab, int index, int size, int limit, |
3196 |
|
|
ConcurrentHashMapV8<K,V> map) { |
3197 |
|
|
super(tab, index, size, limit, map); |
3198 |
|
|
} |
3199 |
|
|
|
3200 |
|
|
public final V next() { |
3201 |
|
|
Node<K,V> p; |
3202 |
|
|
if ((p = next) == null) |
3203 |
|
|
throw new NoSuchElementException(); |
3204 |
|
|
V v = p.val; |
3205 |
|
|
lastReturned = p; |
3206 |
|
|
advance(); |
3207 |
|
|
return v; |
3208 |
dl |
1.84 |
} |
3209 |
dl |
1.102 |
|
3210 |
|
|
public final V nextElement() { return next(); } |
3211 |
dl |
1.75 |
} |
3212 |
|
|
|
3213 |
dl |
1.102 |
static final class EntryIterator<K,V> extends BaseIterator<K,V> |
3214 |
|
|
implements Iterator<Map.Entry<K,V>> { |
3215 |
|
|
EntryIterator(Node<K,V>[] tab, int index, int size, int limit, |
3216 |
|
|
ConcurrentHashMapV8<K,V> map) { |
3217 |
|
|
super(tab, index, size, limit, map); |
3218 |
|
|
} |
3219 |
|
|
|
3220 |
|
|
public final Map.Entry<K,V> next() { |
3221 |
|
|
Node<K,V> p; |
3222 |
|
|
if ((p = next) == null) |
3223 |
|
|
throw new NoSuchElementException(); |
3224 |
|
|
K k = p.key; |
3225 |
|
|
V v = p.val; |
3226 |
|
|
lastReturned = p; |
3227 |
|
|
advance(); |
3228 |
|
|
return new MapEntry<K,V>(k, v, map); |
3229 |
dl |
1.84 |
} |
3230 |
dl |
1.75 |
} |
3231 |
|
|
|
3232 |
|
|
/** |
3233 |
dl |
1.102 |
* Exported Entry for EntryIterator |
3234 |
dl |
1.75 |
*/ |
3235 |
dl |
1.102 |
static final class MapEntry<K,V> implements Map.Entry<K,V> { |
3236 |
|
|
final K key; // non-null |
3237 |
|
|
V val; // non-null |
3238 |
|
|
final ConcurrentHashMapV8<K,V> map; |
3239 |
|
|
MapEntry(K key, V val, ConcurrentHashMapV8<K,V> map) { |
3240 |
|
|
this.key = key; |
3241 |
|
|
this.val = val; |
3242 |
|
|
this.map = map; |
3243 |
|
|
} |
3244 |
|
|
public K getKey() { return key; } |
3245 |
|
|
public V getValue() { return val; } |
3246 |
|
|
public int hashCode() { return key.hashCode() ^ val.hashCode(); } |
3247 |
|
|
public String toString() { return key + "=" + val; } |
3248 |
|
|
|
3249 |
|
|
public boolean equals(Object o) { |
3250 |
|
|
Object k, v; Map.Entry<?,?> e; |
3251 |
|
|
return ((o instanceof Map.Entry) && |
3252 |
|
|
(k = (e = (Map.Entry<?,?>)o).getKey()) != null && |
3253 |
|
|
(v = e.getValue()) != null && |
3254 |
|
|
(k == key || k.equals(key)) && |
3255 |
|
|
(v == val || v.equals(val))); |
3256 |
|
|
} |
3257 |
|
|
|
3258 |
|
|
/** |
3259 |
|
|
* Sets our entry's value and writes through to the map. The |
3260 |
|
|
* value to return is somewhat arbitrary here. Since we do not |
3261 |
|
|
* necessarily track asynchronous changes, the most recent |
3262 |
|
|
* "previous" value could be different from what we return (or |
3263 |
|
|
* could even have been removed, in which case the put will |
3264 |
|
|
* re-establish). We do not and cannot guarantee more. |
3265 |
|
|
*/ |
3266 |
|
|
public V setValue(V value) { |
3267 |
|
|
if (value == null) throw new NullPointerException(); |
3268 |
|
|
V v = val; |
3269 |
|
|
val = value; |
3270 |
|
|
map.put(key, value); |
3271 |
|
|
return v; |
3272 |
dl |
1.84 |
} |
3273 |
dl |
1.75 |
} |
3274 |
|
|
|
3275 |
dl |
1.102 |
static final class KeySpliterator<K,V> extends Traverser<K,V> |
3276 |
|
|
implements ConcurrentHashMapSpliterator<K> { |
3277 |
|
|
long est; // size estimate |
3278 |
|
|
KeySpliterator(Node<K,V>[] tab, int size, int index, int limit, |
3279 |
|
|
long est) { |
3280 |
|
|
super(tab, size, index, limit); |
3281 |
|
|
this.est = est; |
3282 |
|
|
} |
3283 |
|
|
|
3284 |
|
|
public ConcurrentHashMapSpliterator<K> trySplit() { |
3285 |
|
|
int i, f, h; |
3286 |
|
|
return (h = ((i = baseIndex) + (f = baseLimit)) >>> 1) <= i ? null : |
3287 |
|
|
new KeySpliterator<K,V>(tab, baseSize, baseLimit = h, |
3288 |
|
|
f, est >>>= 1); |
3289 |
|
|
} |
3290 |
|
|
|
3291 |
|
|
public void forEachRemaining(Action<? super K> action) { |
3292 |
|
|
if (action == null) throw new NullPointerException(); |
3293 |
|
|
for (Node<K,V> p; (p = advance()) != null;) |
3294 |
|
|
action.apply(p.key); |
3295 |
|
|
} |
3296 |
|
|
|
3297 |
|
|
public boolean tryAdvance(Action<? super K> action) { |
3298 |
|
|
if (action == null) throw new NullPointerException(); |
3299 |
|
|
Node<K,V> p; |
3300 |
|
|
if ((p = advance()) == null) |
3301 |
|
|
return false; |
3302 |
|
|
action.apply(p.key); |
3303 |
|
|
return true; |
3304 |
dl |
1.84 |
} |
3305 |
dl |
1.102 |
|
3306 |
|
|
public long estimateSize() { return est; } |
3307 |
|
|
|
3308 |
dl |
1.75 |
} |
3309 |
|
|
|
3310 |
dl |
1.102 |
static final class ValueSpliterator<K,V> extends Traverser<K,V> |
3311 |
|
|
implements ConcurrentHashMapSpliterator<V> { |
3312 |
|
|
long est; // size estimate |
3313 |
|
|
ValueSpliterator(Node<K,V>[] tab, int size, int index, int limit, |
3314 |
|
|
long est) { |
3315 |
|
|
super(tab, size, index, limit); |
3316 |
|
|
this.est = est; |
3317 |
|
|
} |
3318 |
|
|
|
3319 |
|
|
public ConcurrentHashMapSpliterator<V> trySplit() { |
3320 |
|
|
int i, f, h; |
3321 |
|
|
return (h = ((i = baseIndex) + (f = baseLimit)) >>> 1) <= i ? null : |
3322 |
|
|
new ValueSpliterator<K,V>(tab, baseSize, baseLimit = h, |
3323 |
|
|
f, est >>>= 1); |
3324 |
|
|
} |
3325 |
|
|
|
3326 |
|
|
public void forEachRemaining(Action<? super V> action) { |
3327 |
|
|
if (action == null) throw new NullPointerException(); |
3328 |
|
|
for (Node<K,V> p; (p = advance()) != null;) |
3329 |
|
|
action.apply(p.val); |
3330 |
|
|
} |
3331 |
|
|
|
3332 |
|
|
public boolean tryAdvance(Action<? super V> action) { |
3333 |
|
|
if (action == null) throw new NullPointerException(); |
3334 |
|
|
Node<K,V> p; |
3335 |
|
|
if ((p = advance()) == null) |
3336 |
|
|
return false; |
3337 |
|
|
action.apply(p.val); |
3338 |
|
|
return true; |
3339 |
|
|
} |
3340 |
|
|
|
3341 |
|
|
public long estimateSize() { return est; } |
3342 |
|
|
|
3343 |
dl |
1.75 |
} |
3344 |
|
|
|
3345 |
dl |
1.102 |
static final class EntrySpliterator<K,V> extends Traverser<K,V> |
3346 |
|
|
implements ConcurrentHashMapSpliterator<Map.Entry<K,V>> { |
3347 |
|
|
final ConcurrentHashMapV8<K,V> map; // To export MapEntry |
3348 |
|
|
long est; // size estimate |
3349 |
|
|
EntrySpliterator(Node<K,V>[] tab, int size, int index, int limit, |
3350 |
|
|
long est, ConcurrentHashMapV8<K,V> map) { |
3351 |
|
|
super(tab, size, index, limit); |
3352 |
|
|
this.map = map; |
3353 |
|
|
this.est = est; |
3354 |
|
|
} |
3355 |
|
|
|
3356 |
|
|
public ConcurrentHashMapSpliterator<Map.Entry<K,V>> trySplit() { |
3357 |
|
|
int i, f, h; |
3358 |
|
|
return (h = ((i = baseIndex) + (f = baseLimit)) >>> 1) <= i ? null : |
3359 |
|
|
new EntrySpliterator<K,V>(tab, baseSize, baseLimit = h, |
3360 |
|
|
f, est >>>= 1, map); |
3361 |
|
|
} |
3362 |
|
|
|
3363 |
|
|
public void forEachRemaining(Action<? super Map.Entry<K,V>> action) { |
3364 |
|
|
if (action == null) throw new NullPointerException(); |
3365 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
3366 |
|
|
action.apply(new MapEntry<K,V>(p.key, p.val, map)); |
3367 |
|
|
} |
3368 |
|
|
|
3369 |
|
|
public boolean tryAdvance(Action<? super Map.Entry<K,V>> action) { |
3370 |
|
|
if (action == null) throw new NullPointerException(); |
3371 |
|
|
Node<K,V> p; |
3372 |
|
|
if ((p = advance()) == null) |
3373 |
|
|
return false; |
3374 |
|
|
action.apply(new MapEntry<K,V>(p.key, p.val, map)); |
3375 |
|
|
return true; |
3376 |
|
|
} |
3377 |
|
|
|
3378 |
|
|
public long estimateSize() { return est; } |
3379 |
|
|
|
3380 |
dl |
1.75 |
} |
3381 |
|
|
|
3382 |
dl |
1.102 |
// Parallel bulk operations |
3383 |
|
|
|
3384 |
dl |
1.75 |
/** |
3385 |
dl |
1.102 |
* Computes initial batch value for bulk tasks. The returned value |
3386 |
|
|
* is approximately exp2 of the number of times (minus one) to |
3387 |
|
|
* split task by two before executing leaf action. This value is |
3388 |
|
|
* faster to compute and more convenient to use as a guide to |
3389 |
|
|
* splitting than is the depth, since it is used while dividing by |
3390 |
|
|
* two anyway. |
3391 |
|
|
*/ |
3392 |
|
|
final int batchFor(long b) { |
3393 |
|
|
long n; |
3394 |
|
|
if (b == Long.MAX_VALUE || (n = sumCount()) <= 1L || n < b) |
3395 |
|
|
return 0; |
3396 |
|
|
int sp = ForkJoinPool.getCommonPoolParallelism() << 2; // slack of 4 |
3397 |
|
|
return (b <= 0L || (n /= b) >= sp) ? sp : (int)n; |
3398 |
dl |
1.75 |
} |
3399 |
|
|
|
3400 |
|
|
/** |
3401 |
dl |
1.84 |
* Performs the given action for each (key, value). |
3402 |
|
|
* |
3403 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3404 |
|
|
* needed for this operation to be executed in parallel |
3405 |
dl |
1.84 |
* @param action the action |
3406 |
dl |
1.102 |
* @since 1.8 |
3407 |
dl |
1.75 |
*/ |
3408 |
dl |
1.102 |
public void forEach(long parallelismThreshold, |
3409 |
|
|
BiAction<? super K,? super V> action) { |
3410 |
|
|
if (action == null) throw new NullPointerException(); |
3411 |
|
|
new ForEachMappingTask<K,V> |
3412 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3413 |
|
|
action).invoke(); |
3414 |
dl |
1.84 |
} |
3415 |
dl |
1.75 |
|
3416 |
dl |
1.84 |
/** |
3417 |
|
|
* Performs the given action for each non-null transformation |
3418 |
|
|
* of each (key, value). |
3419 |
|
|
* |
3420 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3421 |
|
|
* needed for this operation to be executed in parallel |
3422 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3423 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3424 |
jsr166 |
1.93 |
* which case the action is not applied) |
3425 |
dl |
1.84 |
* @param action the action |
3426 |
dl |
1.102 |
* @since 1.8 |
3427 |
dl |
1.84 |
*/ |
3428 |
dl |
1.102 |
public <U> void forEach(long parallelismThreshold, |
3429 |
|
|
BiFun<? super K, ? super V, ? extends U> transformer, |
3430 |
|
|
Action<? super U> action) { |
3431 |
|
|
if (transformer == null || action == null) |
3432 |
|
|
throw new NullPointerException(); |
3433 |
|
|
new ForEachTransformedMappingTask<K,V,U> |
3434 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3435 |
|
|
transformer, action).invoke(); |
3436 |
dl |
1.84 |
} |
3437 |
dl |
1.75 |
|
3438 |
dl |
1.84 |
/** |
3439 |
|
|
* Returns a non-null result from applying the given search |
3440 |
|
|
* function on each (key, value), or null if none. Upon |
3441 |
|
|
* success, further element processing is suppressed and the |
3442 |
|
|
* results of any other parallel invocations of the search |
3443 |
|
|
* function are ignored. |
3444 |
|
|
* |
3445 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3446 |
|
|
* needed for this operation to be executed in parallel |
3447 |
dl |
1.84 |
* @param searchFunction a function returning a non-null |
3448 |
|
|
* result on success, else null |
3449 |
|
|
* @return a non-null result from applying the given search |
3450 |
|
|
* function on each (key, value), or null if none |
3451 |
dl |
1.102 |
* @since 1.8 |
3452 |
dl |
1.84 |
*/ |
3453 |
dl |
1.102 |
public <U> U search(long parallelismThreshold, |
3454 |
|
|
BiFun<? super K, ? super V, ? extends U> searchFunction) { |
3455 |
|
|
if (searchFunction == null) throw new NullPointerException(); |
3456 |
|
|
return new SearchMappingsTask<K,V,U> |
3457 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3458 |
|
|
searchFunction, new AtomicReference<U>()).invoke(); |
3459 |
dl |
1.84 |
} |
3460 |
dl |
1.75 |
|
3461 |
dl |
1.84 |
/** |
3462 |
|
|
* Returns the result of accumulating the given transformation |
3463 |
|
|
* of all (key, value) pairs using the given reducer to |
3464 |
|
|
* combine values, or null if none. |
3465 |
|
|
* |
3466 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3467 |
|
|
* needed for this operation to be executed in parallel |
3468 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3469 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3470 |
jsr166 |
1.93 |
* which case it is not combined) |
3471 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3472 |
|
|
* @return the result of accumulating the given transformation |
3473 |
|
|
* of all (key, value) pairs |
3474 |
dl |
1.102 |
* @since 1.8 |
3475 |
dl |
1.84 |
*/ |
3476 |
dl |
1.102 |
public <U> U reduce(long parallelismThreshold, |
3477 |
|
|
BiFun<? super K, ? super V, ? extends U> transformer, |
3478 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
3479 |
|
|
if (transformer == null || reducer == null) |
3480 |
|
|
throw new NullPointerException(); |
3481 |
|
|
return new MapReduceMappingsTask<K,V,U> |
3482 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3483 |
|
|
null, transformer, reducer).invoke(); |
3484 |
dl |
1.84 |
} |
3485 |
dl |
1.75 |
|
3486 |
dl |
1.84 |
/** |
3487 |
|
|
* Returns the result of accumulating the given transformation |
3488 |
|
|
* of all (key, value) pairs using the given reducer to |
3489 |
|
|
* combine values, and the given basis as an identity value. |
3490 |
|
|
* |
3491 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3492 |
|
|
* needed for this operation to be executed in parallel |
3493 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3494 |
|
|
* for an element |
3495 |
|
|
* @param basis the identity (initial default value) for the reduction |
3496 |
|
|
* @param reducer a commutative associative combining function |
3497 |
|
|
* @return the result of accumulating the given transformation |
3498 |
|
|
* of all (key, value) pairs |
3499 |
dl |
1.102 |
* @since 1.8 |
3500 |
dl |
1.84 |
*/ |
3501 |
dl |
1.102 |
public double reduceToDoubleIn(long parallelismThreshold, |
3502 |
|
|
ObjectByObjectToDouble<? super K, ? super V> transformer, |
3503 |
|
|
double basis, |
3504 |
|
|
DoubleByDoubleToDouble reducer) { |
3505 |
|
|
if (transformer == null || reducer == null) |
3506 |
|
|
throw new NullPointerException(); |
3507 |
|
|
return new MapReduceMappingsToDoubleTask<K,V> |
3508 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3509 |
|
|
null, transformer, basis, reducer).invoke(); |
3510 |
dl |
1.84 |
} |
3511 |
|
|
|
3512 |
|
|
/** |
3513 |
|
|
* Returns the result of accumulating the given transformation |
3514 |
|
|
* of all (key, value) pairs using the given reducer to |
3515 |
|
|
* combine values, and the given basis as an identity value. |
3516 |
|
|
* |
3517 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3518 |
|
|
* needed for this operation to be executed in parallel |
3519 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3520 |
|
|
* for an element |
3521 |
|
|
* @param basis the identity (initial default value) for the reduction |
3522 |
|
|
* @param reducer a commutative associative combining function |
3523 |
|
|
* @return the result of accumulating the given transformation |
3524 |
|
|
* of all (key, value) pairs |
3525 |
dl |
1.102 |
* @since 1.8 |
3526 |
dl |
1.84 |
*/ |
3527 |
dl |
1.102 |
public long reduceToLong(long parallelismThreshold, |
3528 |
|
|
ObjectByObjectToLong<? super K, ? super V> transformer, |
3529 |
|
|
long basis, |
3530 |
|
|
LongByLongToLong reducer) { |
3531 |
|
|
if (transformer == null || reducer == null) |
3532 |
|
|
throw new NullPointerException(); |
3533 |
|
|
return new MapReduceMappingsToLongTask<K,V> |
3534 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3535 |
|
|
null, transformer, basis, reducer).invoke(); |
3536 |
dl |
1.84 |
} |
3537 |
|
|
|
3538 |
|
|
/** |
3539 |
|
|
* Returns the result of accumulating the given transformation |
3540 |
|
|
* of all (key, value) pairs using the given reducer to |
3541 |
|
|
* combine values, and the given basis as an identity value. |
3542 |
|
|
* |
3543 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3544 |
|
|
* needed for this operation to be executed in parallel |
3545 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3546 |
|
|
* for an element |
3547 |
|
|
* @param basis the identity (initial default value) for the reduction |
3548 |
|
|
* @param reducer a commutative associative combining function |
3549 |
|
|
* @return the result of accumulating the given transformation |
3550 |
|
|
* of all (key, value) pairs |
3551 |
dl |
1.102 |
* @since 1.8 |
3552 |
dl |
1.84 |
*/ |
3553 |
dl |
1.102 |
public int reduceToInt(long parallelismThreshold, |
3554 |
|
|
ObjectByObjectToInt<? super K, ? super V> transformer, |
3555 |
|
|
int basis, |
3556 |
|
|
IntByIntToInt reducer) { |
3557 |
|
|
if (transformer == null || reducer == null) |
3558 |
|
|
throw new NullPointerException(); |
3559 |
|
|
return new MapReduceMappingsToIntTask<K,V> |
3560 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3561 |
|
|
null, transformer, basis, reducer).invoke(); |
3562 |
dl |
1.84 |
} |
3563 |
|
|
|
3564 |
|
|
/** |
3565 |
|
|
* Performs the given action for each key. |
3566 |
|
|
* |
3567 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3568 |
|
|
* needed for this operation to be executed in parallel |
3569 |
dl |
1.84 |
* @param action the action |
3570 |
dl |
1.102 |
* @since 1.8 |
3571 |
dl |
1.84 |
*/ |
3572 |
dl |
1.102 |
public void forEachKey(long parallelismThreshold, |
3573 |
|
|
Action<? super K> action) { |
3574 |
|
|
if (action == null) throw new NullPointerException(); |
3575 |
|
|
new ForEachKeyTask<K,V> |
3576 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3577 |
|
|
action).invoke(); |
3578 |
dl |
1.84 |
} |
3579 |
|
|
|
3580 |
|
|
/** |
3581 |
|
|
* Performs the given action for each non-null transformation |
3582 |
|
|
* of each key. |
3583 |
|
|
* |
3584 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3585 |
|
|
* needed for this operation to be executed in parallel |
3586 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3587 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3588 |
jsr166 |
1.93 |
* which case the action is not applied) |
3589 |
dl |
1.84 |
* @param action the action |
3590 |
dl |
1.102 |
* @since 1.8 |
3591 |
dl |
1.84 |
*/ |
3592 |
dl |
1.102 |
public <U> void forEachKey(long parallelismThreshold, |
3593 |
|
|
Fun<? super K, ? extends U> transformer, |
3594 |
|
|
Action<? super U> action) { |
3595 |
|
|
if (transformer == null || action == null) |
3596 |
|
|
throw new NullPointerException(); |
3597 |
|
|
new ForEachTransformedKeyTask<K,V,U> |
3598 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3599 |
|
|
transformer, action).invoke(); |
3600 |
dl |
1.84 |
} |
3601 |
|
|
|
3602 |
|
|
/** |
3603 |
|
|
* Returns a non-null result from applying the given search |
3604 |
|
|
* function on each key, or null if none. Upon success, |
3605 |
|
|
* further element processing is suppressed and the results of |
3606 |
|
|
* any other parallel invocations of the search function are |
3607 |
|
|
* ignored. |
3608 |
|
|
* |
3609 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3610 |
|
|
* needed for this operation to be executed in parallel |
3611 |
dl |
1.84 |
* @param searchFunction a function returning a non-null |
3612 |
|
|
* result on success, else null |
3613 |
|
|
* @return a non-null result from applying the given search |
3614 |
|
|
* function on each key, or null if none |
3615 |
dl |
1.102 |
* @since 1.8 |
3616 |
dl |
1.84 |
*/ |
3617 |
dl |
1.102 |
public <U> U searchKeys(long parallelismThreshold, |
3618 |
|
|
Fun<? super K, ? extends U> searchFunction) { |
3619 |
|
|
if (searchFunction == null) throw new NullPointerException(); |
3620 |
|
|
return new SearchKeysTask<K,V,U> |
3621 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3622 |
|
|
searchFunction, new AtomicReference<U>()).invoke(); |
3623 |
dl |
1.84 |
} |
3624 |
|
|
|
3625 |
|
|
/** |
3626 |
|
|
* Returns the result of accumulating all keys using the given |
3627 |
|
|
* reducer to combine values, or null if none. |
3628 |
|
|
* |
3629 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3630 |
|
|
* needed for this operation to be executed in parallel |
3631 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3632 |
|
|
* @return the result of accumulating all keys using the given |
3633 |
|
|
* reducer to combine values, or null if none |
3634 |
dl |
1.102 |
* @since 1.8 |
3635 |
dl |
1.84 |
*/ |
3636 |
dl |
1.102 |
public K reduceKeys(long parallelismThreshold, |
3637 |
|
|
BiFun<? super K, ? super K, ? extends K> reducer) { |
3638 |
|
|
if (reducer == null) throw new NullPointerException(); |
3639 |
|
|
return new ReduceKeysTask<K,V> |
3640 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3641 |
|
|
null, reducer).invoke(); |
3642 |
dl |
1.84 |
} |
3643 |
|
|
|
3644 |
|
|
/** |
3645 |
|
|
* Returns the result of accumulating the given transformation |
3646 |
|
|
* of all keys using the given reducer to combine values, or |
3647 |
|
|
* null if none. |
3648 |
|
|
* |
3649 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3650 |
|
|
* needed for this operation to be executed in parallel |
3651 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3652 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3653 |
jsr166 |
1.93 |
* which case it is not combined) |
3654 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3655 |
|
|
* @return the result of accumulating the given transformation |
3656 |
|
|
* of all keys |
3657 |
dl |
1.102 |
* @since 1.8 |
3658 |
dl |
1.84 |
*/ |
3659 |
dl |
1.102 |
public <U> U reduceKeys(long parallelismThreshold, |
3660 |
|
|
Fun<? super K, ? extends U> transformer, |
3661 |
dl |
1.84 |
BiFun<? super U, ? super U, ? extends U> reducer) { |
3662 |
dl |
1.102 |
if (transformer == null || reducer == null) |
3663 |
|
|
throw new NullPointerException(); |
3664 |
|
|
return new MapReduceKeysTask<K,V,U> |
3665 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3666 |
|
|
null, transformer, reducer).invoke(); |
3667 |
dl |
1.84 |
} |
3668 |
|
|
|
3669 |
|
|
/** |
3670 |
|
|
* Returns the result of accumulating the given transformation |
3671 |
|
|
* of all keys using the given reducer to combine values, and |
3672 |
|
|
* the given basis as an identity value. |
3673 |
|
|
* |
3674 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3675 |
|
|
* needed for this operation to be executed in parallel |
3676 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3677 |
|
|
* for an element |
3678 |
|
|
* @param basis the identity (initial default value) for the reduction |
3679 |
|
|
* @param reducer a commutative associative combining function |
3680 |
dl |
1.102 |
* @return the result of accumulating the given transformation |
3681 |
dl |
1.84 |
* of all keys |
3682 |
dl |
1.102 |
* @since 1.8 |
3683 |
dl |
1.84 |
*/ |
3684 |
dl |
1.102 |
public double reduceKeysToDouble(long parallelismThreshold, |
3685 |
|
|
ObjectToDouble<? super K> transformer, |
3686 |
|
|
double basis, |
3687 |
|
|
DoubleByDoubleToDouble reducer) { |
3688 |
|
|
if (transformer == null || reducer == null) |
3689 |
|
|
throw new NullPointerException(); |
3690 |
|
|
return new MapReduceKeysToDoubleTask<K,V> |
3691 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3692 |
|
|
null, transformer, basis, reducer).invoke(); |
3693 |
dl |
1.84 |
} |
3694 |
|
|
|
3695 |
|
|
/** |
3696 |
|
|
* Returns the result of accumulating the given transformation |
3697 |
|
|
* of all keys using the given reducer to combine values, and |
3698 |
|
|
* the given basis as an identity value. |
3699 |
|
|
* |
3700 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3701 |
|
|
* needed for this operation to be executed in parallel |
3702 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3703 |
|
|
* for an element |
3704 |
|
|
* @param basis the identity (initial default value) for the reduction |
3705 |
|
|
* @param reducer a commutative associative combining function |
3706 |
|
|
* @return the result of accumulating the given transformation |
3707 |
|
|
* of all keys |
3708 |
dl |
1.102 |
* @since 1.8 |
3709 |
dl |
1.84 |
*/ |
3710 |
dl |
1.102 |
public long reduceKeysToLong(long parallelismThreshold, |
3711 |
|
|
ObjectToLong<? super K> transformer, |
3712 |
|
|
long basis, |
3713 |
|
|
LongByLongToLong reducer) { |
3714 |
|
|
if (transformer == null || reducer == null) |
3715 |
|
|
throw new NullPointerException(); |
3716 |
|
|
return new MapReduceKeysToLongTask<K,V> |
3717 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3718 |
|
|
null, transformer, basis, reducer).invoke(); |
3719 |
dl |
1.84 |
} |
3720 |
|
|
|
3721 |
|
|
/** |
3722 |
|
|
* Returns the result of accumulating the given transformation |
3723 |
|
|
* of all keys using the given reducer to combine values, and |
3724 |
|
|
* the given basis as an identity value. |
3725 |
|
|
* |
3726 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3727 |
|
|
* needed for this operation to be executed in parallel |
3728 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3729 |
|
|
* for an element |
3730 |
|
|
* @param basis the identity (initial default value) for the reduction |
3731 |
|
|
* @param reducer a commutative associative combining function |
3732 |
|
|
* @return the result of accumulating the given transformation |
3733 |
|
|
* of all keys |
3734 |
dl |
1.102 |
* @since 1.8 |
3735 |
dl |
1.84 |
*/ |
3736 |
dl |
1.102 |
public int reduceKeysToInt(long parallelismThreshold, |
3737 |
|
|
ObjectToInt<? super K> transformer, |
3738 |
|
|
int basis, |
3739 |
|
|
IntByIntToInt reducer) { |
3740 |
|
|
if (transformer == null || reducer == null) |
3741 |
|
|
throw new NullPointerException(); |
3742 |
|
|
return new MapReduceKeysToIntTask<K,V> |
3743 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3744 |
|
|
null, transformer, basis, reducer).invoke(); |
3745 |
dl |
1.84 |
} |
3746 |
|
|
|
3747 |
|
|
/** |
3748 |
|
|
* Performs the given action for each value. |
3749 |
|
|
* |
3750 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3751 |
|
|
* needed for this operation to be executed in parallel |
3752 |
dl |
1.84 |
* @param action the action |
3753 |
dl |
1.102 |
* @since 1.8 |
3754 |
dl |
1.84 |
*/ |
3755 |
dl |
1.102 |
public void forEachValue(long parallelismThreshold, |
3756 |
|
|
Action<? super V> action) { |
3757 |
|
|
if (action == null) |
3758 |
|
|
throw new NullPointerException(); |
3759 |
|
|
new ForEachValueTask<K,V> |
3760 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3761 |
|
|
action).invoke(); |
3762 |
dl |
1.84 |
} |
3763 |
|
|
|
3764 |
|
|
/** |
3765 |
|
|
* Performs the given action for each non-null transformation |
3766 |
|
|
* of each value. |
3767 |
|
|
* |
3768 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3769 |
|
|
* needed for this operation to be executed in parallel |
3770 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3771 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3772 |
jsr166 |
1.93 |
* which case the action is not applied) |
3773 |
dl |
1.102 |
* @param action the action |
3774 |
|
|
* @since 1.8 |
3775 |
dl |
1.84 |
*/ |
3776 |
dl |
1.102 |
public <U> void forEachValue(long parallelismThreshold, |
3777 |
|
|
Fun<? super V, ? extends U> transformer, |
3778 |
|
|
Action<? super U> action) { |
3779 |
|
|
if (transformer == null || action == null) |
3780 |
|
|
throw new NullPointerException(); |
3781 |
|
|
new ForEachTransformedValueTask<K,V,U> |
3782 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3783 |
|
|
transformer, action).invoke(); |
3784 |
dl |
1.84 |
} |
3785 |
|
|
|
3786 |
|
|
/** |
3787 |
|
|
* Returns a non-null result from applying the given search |
3788 |
|
|
* function on each value, or null if none. Upon success, |
3789 |
|
|
* further element processing is suppressed and the results of |
3790 |
|
|
* any other parallel invocations of the search function are |
3791 |
|
|
* ignored. |
3792 |
|
|
* |
3793 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3794 |
|
|
* needed for this operation to be executed in parallel |
3795 |
dl |
1.84 |
* @param searchFunction a function returning a non-null |
3796 |
|
|
* result on success, else null |
3797 |
|
|
* @return a non-null result from applying the given search |
3798 |
|
|
* function on each value, or null if none |
3799 |
dl |
1.102 |
* @since 1.8 |
3800 |
dl |
1.84 |
*/ |
3801 |
dl |
1.102 |
public <U> U searchValues(long parallelismThreshold, |
3802 |
|
|
Fun<? super V, ? extends U> searchFunction) { |
3803 |
|
|
if (searchFunction == null) throw new NullPointerException(); |
3804 |
|
|
return new SearchValuesTask<K,V,U> |
3805 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3806 |
|
|
searchFunction, new AtomicReference<U>()).invoke(); |
3807 |
dl |
1.84 |
} |
3808 |
|
|
|
3809 |
|
|
/** |
3810 |
|
|
* Returns the result of accumulating all values using the |
3811 |
|
|
* given reducer to combine values, or null if none. |
3812 |
|
|
* |
3813 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3814 |
|
|
* needed for this operation to be executed in parallel |
3815 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3816 |
dl |
1.102 |
* @return the result of accumulating all values |
3817 |
|
|
* @since 1.8 |
3818 |
dl |
1.84 |
*/ |
3819 |
dl |
1.102 |
public V reduceValues(long parallelismThreshold, |
3820 |
|
|
BiFun<? super V, ? super V, ? extends V> reducer) { |
3821 |
|
|
if (reducer == null) throw new NullPointerException(); |
3822 |
|
|
return new ReduceValuesTask<K,V> |
3823 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3824 |
|
|
null, reducer).invoke(); |
3825 |
dl |
1.84 |
} |
3826 |
|
|
|
3827 |
|
|
/** |
3828 |
|
|
* Returns the result of accumulating the given transformation |
3829 |
|
|
* of all values using the given reducer to combine values, or |
3830 |
|
|
* null if none. |
3831 |
|
|
* |
3832 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3833 |
|
|
* needed for this operation to be executed in parallel |
3834 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3835 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3836 |
jsr166 |
1.93 |
* which case it is not combined) |
3837 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3838 |
|
|
* @return the result of accumulating the given transformation |
3839 |
|
|
* of all values |
3840 |
dl |
1.102 |
* @since 1.8 |
3841 |
dl |
1.84 |
*/ |
3842 |
dl |
1.102 |
public <U> U reduceValues(long parallelismThreshold, |
3843 |
|
|
Fun<? super V, ? extends U> transformer, |
3844 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
3845 |
|
|
if (transformer == null || reducer == null) |
3846 |
|
|
throw new NullPointerException(); |
3847 |
|
|
return new MapReduceValuesTask<K,V,U> |
3848 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3849 |
|
|
null, transformer, reducer).invoke(); |
3850 |
dl |
1.84 |
} |
3851 |
|
|
|
3852 |
|
|
/** |
3853 |
|
|
* Returns the result of accumulating the given transformation |
3854 |
|
|
* of all values using the given reducer to combine values, |
3855 |
|
|
* and the given basis as an identity value. |
3856 |
|
|
* |
3857 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3858 |
|
|
* needed for this operation to be executed in parallel |
3859 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3860 |
|
|
* for an element |
3861 |
|
|
* @param basis the identity (initial default value) for the reduction |
3862 |
|
|
* @param reducer a commutative associative combining function |
3863 |
|
|
* @return the result of accumulating the given transformation |
3864 |
|
|
* of all values |
3865 |
dl |
1.102 |
* @since 1.8 |
3866 |
dl |
1.84 |
*/ |
3867 |
dl |
1.102 |
public double reduceValuesToDouble(long parallelismThreshold, |
3868 |
|
|
ObjectToDouble<? super V> transformer, |
3869 |
|
|
double basis, |
3870 |
|
|
DoubleByDoubleToDouble reducer) { |
3871 |
|
|
if (transformer == null || reducer == null) |
3872 |
|
|
throw new NullPointerException(); |
3873 |
|
|
return new MapReduceValuesToDoubleTask<K,V> |
3874 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3875 |
|
|
null, transformer, basis, reducer).invoke(); |
3876 |
dl |
1.84 |
} |
3877 |
|
|
|
3878 |
|
|
/** |
3879 |
|
|
* Returns the result of accumulating the given transformation |
3880 |
|
|
* of all values using the given reducer to combine values, |
3881 |
|
|
* and the given basis as an identity value. |
3882 |
|
|
* |
3883 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3884 |
|
|
* needed for this operation to be executed in parallel |
3885 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3886 |
|
|
* for an element |
3887 |
|
|
* @param basis the identity (initial default value) for the reduction |
3888 |
|
|
* @param reducer a commutative associative combining function |
3889 |
|
|
* @return the result of accumulating the given transformation |
3890 |
|
|
* of all values |
3891 |
dl |
1.102 |
* @since 1.8 |
3892 |
dl |
1.84 |
*/ |
3893 |
dl |
1.102 |
public long reduceValuesToLong(long parallelismThreshold, |
3894 |
|
|
ObjectToLong<? super V> transformer, |
3895 |
|
|
long basis, |
3896 |
|
|
LongByLongToLong reducer) { |
3897 |
|
|
if (transformer == null || reducer == null) |
3898 |
|
|
throw new NullPointerException(); |
3899 |
|
|
return new MapReduceValuesToLongTask<K,V> |
3900 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3901 |
|
|
null, transformer, basis, reducer).invoke(); |
3902 |
dl |
1.84 |
} |
3903 |
|
|
|
3904 |
|
|
/** |
3905 |
|
|
* Returns the result of accumulating the given transformation |
3906 |
|
|
* of all values using the given reducer to combine values, |
3907 |
|
|
* and the given basis as an identity value. |
3908 |
|
|
* |
3909 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3910 |
|
|
* needed for this operation to be executed in parallel |
3911 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3912 |
|
|
* for an element |
3913 |
|
|
* @param basis the identity (initial default value) for the reduction |
3914 |
|
|
* @param reducer a commutative associative combining function |
3915 |
|
|
* @return the result of accumulating the given transformation |
3916 |
|
|
* of all values |
3917 |
dl |
1.102 |
* @since 1.8 |
3918 |
dl |
1.84 |
*/ |
3919 |
dl |
1.102 |
public int reduceValuesToInt(long parallelismThreshold, |
3920 |
|
|
ObjectToInt<? super V> transformer, |
3921 |
|
|
int basis, |
3922 |
|
|
IntByIntToInt reducer) { |
3923 |
|
|
if (transformer == null || reducer == null) |
3924 |
|
|
throw new NullPointerException(); |
3925 |
|
|
return new MapReduceValuesToIntTask<K,V> |
3926 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3927 |
|
|
null, transformer, basis, reducer).invoke(); |
3928 |
dl |
1.84 |
} |
3929 |
|
|
|
3930 |
|
|
/** |
3931 |
|
|
* Performs the given action for each entry. |
3932 |
|
|
* |
3933 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3934 |
|
|
* needed for this operation to be executed in parallel |
3935 |
dl |
1.84 |
* @param action the action |
3936 |
dl |
1.102 |
* @since 1.8 |
3937 |
dl |
1.84 |
*/ |
3938 |
dl |
1.102 |
public void forEachEntry(long parallelismThreshold, |
3939 |
|
|
Action<? super Map.Entry<K,V>> action) { |
3940 |
|
|
if (action == null) throw new NullPointerException(); |
3941 |
|
|
new ForEachEntryTask<K,V>(null, batchFor(parallelismThreshold), 0, 0, table, |
3942 |
|
|
action).invoke(); |
3943 |
dl |
1.84 |
} |
3944 |
|
|
|
3945 |
|
|
/** |
3946 |
|
|
* Performs the given action for each non-null transformation |
3947 |
|
|
* of each entry. |
3948 |
|
|
* |
3949 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3950 |
|
|
* needed for this operation to be executed in parallel |
3951 |
dl |
1.84 |
* @param transformer a function returning the transformation |
3952 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
3953 |
jsr166 |
1.93 |
* which case the action is not applied) |
3954 |
dl |
1.84 |
* @param action the action |
3955 |
dl |
1.102 |
* @since 1.8 |
3956 |
dl |
1.84 |
*/ |
3957 |
dl |
1.102 |
public <U> void forEachEntry(long parallelismThreshold, |
3958 |
|
|
Fun<Map.Entry<K,V>, ? extends U> transformer, |
3959 |
|
|
Action<? super U> action) { |
3960 |
|
|
if (transformer == null || action == null) |
3961 |
|
|
throw new NullPointerException(); |
3962 |
|
|
new ForEachTransformedEntryTask<K,V,U> |
3963 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3964 |
|
|
transformer, action).invoke(); |
3965 |
dl |
1.84 |
} |
3966 |
|
|
|
3967 |
|
|
/** |
3968 |
|
|
* Returns a non-null result from applying the given search |
3969 |
|
|
* function on each entry, or null if none. Upon success, |
3970 |
|
|
* further element processing is suppressed and the results of |
3971 |
|
|
* any other parallel invocations of the search function are |
3972 |
|
|
* ignored. |
3973 |
|
|
* |
3974 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3975 |
|
|
* needed for this operation to be executed in parallel |
3976 |
dl |
1.84 |
* @param searchFunction a function returning a non-null |
3977 |
|
|
* result on success, else null |
3978 |
|
|
* @return a non-null result from applying the given search |
3979 |
|
|
* function on each entry, or null if none |
3980 |
dl |
1.102 |
* @since 1.8 |
3981 |
dl |
1.84 |
*/ |
3982 |
dl |
1.102 |
public <U> U searchEntries(long parallelismThreshold, |
3983 |
|
|
Fun<Map.Entry<K,V>, ? extends U> searchFunction) { |
3984 |
|
|
if (searchFunction == null) throw new NullPointerException(); |
3985 |
|
|
return new SearchEntriesTask<K,V,U> |
3986 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
3987 |
|
|
searchFunction, new AtomicReference<U>()).invoke(); |
3988 |
dl |
1.84 |
} |
3989 |
|
|
|
3990 |
|
|
/** |
3991 |
|
|
* Returns the result of accumulating all entries using the |
3992 |
|
|
* given reducer to combine values, or null if none. |
3993 |
|
|
* |
3994 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
3995 |
|
|
* needed for this operation to be executed in parallel |
3996 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
3997 |
|
|
* @return the result of accumulating all entries |
3998 |
dl |
1.102 |
* @since 1.8 |
3999 |
dl |
1.84 |
*/ |
4000 |
dl |
1.102 |
public Map.Entry<K,V> reduceEntries(long parallelismThreshold, |
4001 |
|
|
BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) { |
4002 |
|
|
if (reducer == null) throw new NullPointerException(); |
4003 |
|
|
return new ReduceEntriesTask<K,V> |
4004 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
4005 |
|
|
null, reducer).invoke(); |
4006 |
dl |
1.84 |
} |
4007 |
|
|
|
4008 |
|
|
/** |
4009 |
|
|
* Returns the result of accumulating the given transformation |
4010 |
|
|
* of all entries using the given reducer to combine values, |
4011 |
|
|
* or null if none. |
4012 |
|
|
* |
4013 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
4014 |
|
|
* needed for this operation to be executed in parallel |
4015 |
dl |
1.84 |
* @param transformer a function returning the transformation |
4016 |
jsr166 |
1.91 |
* for an element, or null if there is no transformation (in |
4017 |
jsr166 |
1.93 |
* which case it is not combined) |
4018 |
dl |
1.84 |
* @param reducer a commutative associative combining function |
4019 |
|
|
* @return the result of accumulating the given transformation |
4020 |
|
|
* of all entries |
4021 |
dl |
1.102 |
* @since 1.8 |
4022 |
dl |
1.84 |
*/ |
4023 |
dl |
1.102 |
public <U> U reduceEntries(long parallelismThreshold, |
4024 |
|
|
Fun<Map.Entry<K,V>, ? extends U> transformer, |
4025 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
4026 |
|
|
if (transformer == null || reducer == null) |
4027 |
|
|
throw new NullPointerException(); |
4028 |
|
|
return new MapReduceEntriesTask<K,V,U> |
4029 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
4030 |
|
|
null, transformer, reducer).invoke(); |
4031 |
dl |
1.84 |
} |
4032 |
|
|
|
4033 |
|
|
/** |
4034 |
|
|
* Returns the result of accumulating the given transformation |
4035 |
|
|
* of all entries using the given reducer to combine values, |
4036 |
|
|
* and the given basis as an identity value. |
4037 |
|
|
* |
4038 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
4039 |
|
|
* needed for this operation to be executed in parallel |
4040 |
dl |
1.84 |
* @param transformer a function returning the transformation |
4041 |
|
|
* for an element |
4042 |
|
|
* @param basis the identity (initial default value) for the reduction |
4043 |
|
|
* @param reducer a commutative associative combining function |
4044 |
|
|
* @return the result of accumulating the given transformation |
4045 |
|
|
* of all entries |
4046 |
dl |
1.102 |
* @since 1.8 |
4047 |
dl |
1.84 |
*/ |
4048 |
dl |
1.102 |
public double reduceEntriesToDouble(long parallelismThreshold, |
4049 |
|
|
ObjectToDouble<Map.Entry<K,V>> transformer, |
4050 |
|
|
double basis, |
4051 |
|
|
DoubleByDoubleToDouble reducer) { |
4052 |
|
|
if (transformer == null || reducer == null) |
4053 |
|
|
throw new NullPointerException(); |
4054 |
|
|
return new MapReduceEntriesToDoubleTask<K,V> |
4055 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
4056 |
|
|
null, transformer, basis, reducer).invoke(); |
4057 |
dl |
1.84 |
} |
4058 |
|
|
|
4059 |
|
|
/** |
4060 |
|
|
* Returns the result of accumulating the given transformation |
4061 |
|
|
* of all entries using the given reducer to combine values, |
4062 |
|
|
* and the given basis as an identity value. |
4063 |
|
|
* |
4064 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
4065 |
|
|
* needed for this operation to be executed in parallel |
4066 |
dl |
1.84 |
* @param transformer a function returning the transformation |
4067 |
|
|
* for an element |
4068 |
|
|
* @param basis the identity (initial default value) for the reduction |
4069 |
|
|
* @param reducer a commutative associative combining function |
4070 |
dl |
1.102 |
* @return the result of accumulating the given transformation |
4071 |
dl |
1.84 |
* of all entries |
4072 |
dl |
1.102 |
* @since 1.8 |
4073 |
dl |
1.84 |
*/ |
4074 |
dl |
1.102 |
public long reduceEntriesToLong(long parallelismThreshold, |
4075 |
|
|
ObjectToLong<Map.Entry<K,V>> transformer, |
4076 |
|
|
long basis, |
4077 |
|
|
LongByLongToLong reducer) { |
4078 |
|
|
if (transformer == null || reducer == null) |
4079 |
|
|
throw new NullPointerException(); |
4080 |
|
|
return new MapReduceEntriesToLongTask<K,V> |
4081 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
4082 |
|
|
null, transformer, basis, reducer).invoke(); |
4083 |
dl |
1.84 |
} |
4084 |
|
|
|
4085 |
|
|
/** |
4086 |
|
|
* Returns the result of accumulating the given transformation |
4087 |
|
|
* of all entries using the given reducer to combine values, |
4088 |
|
|
* and the given basis as an identity value. |
4089 |
|
|
* |
4090 |
dl |
1.102 |
* @param parallelismThreshold the (estimated) number of elements |
4091 |
|
|
* needed for this operation to be executed in parallel |
4092 |
dl |
1.84 |
* @param transformer a function returning the transformation |
4093 |
|
|
* for an element |
4094 |
|
|
* @param basis the identity (initial default value) for the reduction |
4095 |
|
|
* @param reducer a commutative associative combining function |
4096 |
|
|
* @return the result of accumulating the given transformation |
4097 |
|
|
* of all entries |
4098 |
dl |
1.102 |
* @since 1.8 |
4099 |
dl |
1.84 |
*/ |
4100 |
dl |
1.102 |
public int reduceEntriesToInt(long parallelismThreshold, |
4101 |
|
|
ObjectToInt<Map.Entry<K,V>> transformer, |
4102 |
|
|
int basis, |
4103 |
|
|
IntByIntToInt reducer) { |
4104 |
|
|
if (transformer == null || reducer == null) |
4105 |
|
|
throw new NullPointerException(); |
4106 |
|
|
return new MapReduceEntriesToIntTask<K,V> |
4107 |
|
|
(null, batchFor(parallelismThreshold), 0, 0, table, |
4108 |
|
|
null, transformer, basis, reducer).invoke(); |
4109 |
dl |
1.84 |
} |
4110 |
|
|
|
4111 |
|
|
|
4112 |
|
|
/* ----------------Views -------------- */ |
4113 |
|
|
|
4114 |
|
|
/** |
4115 |
|
|
* Base class for views. |
4116 |
|
|
*/ |
4117 |
dl |
1.102 |
abstract static class CollectionView<K,V,E> |
4118 |
|
|
implements Collection<E>, java.io.Serializable { |
4119 |
|
|
private static final long serialVersionUID = 7249069246763182397L; |
4120 |
jsr166 |
1.99 |
final ConcurrentHashMapV8<K,V> map; |
4121 |
dl |
1.102 |
CollectionView(ConcurrentHashMapV8<K,V> map) { this.map = map; } |
4122 |
dl |
1.84 |
|
4123 |
|
|
/** |
4124 |
|
|
* Returns the map backing this view. |
4125 |
|
|
* |
4126 |
|
|
* @return the map backing this view |
4127 |
|
|
*/ |
4128 |
|
|
public ConcurrentHashMapV8<K,V> getMap() { return map; } |
4129 |
|
|
|
4130 |
dl |
1.102 |
/** |
4131 |
|
|
* Removes all of the elements from this view, by removing all |
4132 |
|
|
* the mappings from the map backing this view. |
4133 |
|
|
*/ |
4134 |
|
|
public final void clear() { map.clear(); } |
4135 |
|
|
public final int size() { return map.size(); } |
4136 |
|
|
public final boolean isEmpty() { return map.isEmpty(); } |
4137 |
dl |
1.84 |
|
4138 |
|
|
// implementations below rely on concrete classes supplying these |
4139 |
dl |
1.102 |
// abstract methods |
4140 |
|
|
/** |
4141 |
|
|
* Returns a "weakly consistent" iterator that will never |
4142 |
|
|
* throw {@link ConcurrentModificationException}, and |
4143 |
|
|
* guarantees to traverse elements as they existed upon |
4144 |
|
|
* construction of the iterator, and may (but is not |
4145 |
|
|
* guaranteed to) reflect any modifications subsequent to |
4146 |
|
|
* construction. |
4147 |
|
|
*/ |
4148 |
|
|
public abstract Iterator<E> iterator(); |
4149 |
jsr166 |
1.88 |
public abstract boolean contains(Object o); |
4150 |
|
|
public abstract boolean remove(Object o); |
4151 |
dl |
1.84 |
|
4152 |
|
|
private static final String oomeMsg = "Required array size too large"; |
4153 |
dl |
1.75 |
|
4154 |
|
|
public final Object[] toArray() { |
4155 |
|
|
long sz = map.mappingCount(); |
4156 |
dl |
1.102 |
if (sz > MAX_ARRAY_SIZE) |
4157 |
dl |
1.75 |
throw new OutOfMemoryError(oomeMsg); |
4158 |
|
|
int n = (int)sz; |
4159 |
|
|
Object[] r = new Object[n]; |
4160 |
|
|
int i = 0; |
4161 |
dl |
1.102 |
for (E e : this) { |
4162 |
dl |
1.75 |
if (i == n) { |
4163 |
|
|
if (n >= MAX_ARRAY_SIZE) |
4164 |
|
|
throw new OutOfMemoryError(oomeMsg); |
4165 |
|
|
if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1) |
4166 |
|
|
n = MAX_ARRAY_SIZE; |
4167 |
|
|
else |
4168 |
|
|
n += (n >>> 1) + 1; |
4169 |
|
|
r = Arrays.copyOf(r, n); |
4170 |
|
|
} |
4171 |
dl |
1.102 |
r[i++] = e; |
4172 |
dl |
1.75 |
} |
4173 |
|
|
return (i == n) ? r : Arrays.copyOf(r, i); |
4174 |
|
|
} |
4175 |
|
|
|
4176 |
dl |
1.102 |
@SuppressWarnings("unchecked") |
4177 |
|
|
public final <T> T[] toArray(T[] a) { |
4178 |
dl |
1.75 |
long sz = map.mappingCount(); |
4179 |
dl |
1.102 |
if (sz > MAX_ARRAY_SIZE) |
4180 |
dl |
1.75 |
throw new OutOfMemoryError(oomeMsg); |
4181 |
|
|
int m = (int)sz; |
4182 |
|
|
T[] r = (a.length >= m) ? a : |
4183 |
|
|
(T[])java.lang.reflect.Array |
4184 |
|
|
.newInstance(a.getClass().getComponentType(), m); |
4185 |
|
|
int n = r.length; |
4186 |
|
|
int i = 0; |
4187 |
dl |
1.102 |
for (E e : this) { |
4188 |
dl |
1.75 |
if (i == n) { |
4189 |
|
|
if (n >= MAX_ARRAY_SIZE) |
4190 |
|
|
throw new OutOfMemoryError(oomeMsg); |
4191 |
|
|
if (n >= MAX_ARRAY_SIZE - (MAX_ARRAY_SIZE >>> 1) - 1) |
4192 |
|
|
n = MAX_ARRAY_SIZE; |
4193 |
|
|
else |
4194 |
|
|
n += (n >>> 1) + 1; |
4195 |
|
|
r = Arrays.copyOf(r, n); |
4196 |
|
|
} |
4197 |
dl |
1.102 |
r[i++] = (T)e; |
4198 |
dl |
1.75 |
} |
4199 |
|
|
if (a == r && i < n) { |
4200 |
|
|
r[i] = null; // null-terminate |
4201 |
|
|
return r; |
4202 |
|
|
} |
4203 |
|
|
return (i == n) ? r : Arrays.copyOf(r, i); |
4204 |
|
|
} |
4205 |
|
|
|
4206 |
dl |
1.102 |
/** |
4207 |
|
|
* Returns a string representation of this collection. |
4208 |
|
|
* The string representation consists of the string representations |
4209 |
|
|
* of the collection's elements in the order they are returned by |
4210 |
|
|
* its iterator, enclosed in square brackets ({@code "[]"}). |
4211 |
|
|
* Adjacent elements are separated by the characters {@code ", "} |
4212 |
|
|
* (comma and space). Elements are converted to strings as by |
4213 |
|
|
* {@link String#valueOf(Object)}. |
4214 |
|
|
* |
4215 |
|
|
* @return a string representation of this collection |
4216 |
|
|
*/ |
4217 |
dl |
1.75 |
public final String toString() { |
4218 |
|
|
StringBuilder sb = new StringBuilder(); |
4219 |
|
|
sb.append('['); |
4220 |
dl |
1.102 |
Iterator<E> it = iterator(); |
4221 |
dl |
1.75 |
if (it.hasNext()) { |
4222 |
|
|
for (;;) { |
4223 |
|
|
Object e = it.next(); |
4224 |
|
|
sb.append(e == this ? "(this Collection)" : e); |
4225 |
|
|
if (!it.hasNext()) |
4226 |
|
|
break; |
4227 |
|
|
sb.append(',').append(' '); |
4228 |
|
|
} |
4229 |
|
|
} |
4230 |
|
|
return sb.append(']').toString(); |
4231 |
|
|
} |
4232 |
|
|
|
4233 |
|
|
public final boolean containsAll(Collection<?> c) { |
4234 |
|
|
if (c != this) { |
4235 |
dl |
1.102 |
for (Object e : c) { |
4236 |
dl |
1.75 |
if (e == null || !contains(e)) |
4237 |
|
|
return false; |
4238 |
|
|
} |
4239 |
|
|
} |
4240 |
|
|
return true; |
4241 |
|
|
} |
4242 |
|
|
|
4243 |
|
|
public final boolean removeAll(Collection<?> c) { |
4244 |
|
|
boolean modified = false; |
4245 |
dl |
1.102 |
for (Iterator<E> it = iterator(); it.hasNext();) { |
4246 |
dl |
1.75 |
if (c.contains(it.next())) { |
4247 |
|
|
it.remove(); |
4248 |
|
|
modified = true; |
4249 |
|
|
} |
4250 |
|
|
} |
4251 |
|
|
return modified; |
4252 |
|
|
} |
4253 |
|
|
|
4254 |
|
|
public final boolean retainAll(Collection<?> c) { |
4255 |
|
|
boolean modified = false; |
4256 |
dl |
1.102 |
for (Iterator<E> it = iterator(); it.hasNext();) { |
4257 |
dl |
1.75 |
if (!c.contains(it.next())) { |
4258 |
|
|
it.remove(); |
4259 |
|
|
modified = true; |
4260 |
|
|
} |
4261 |
|
|
} |
4262 |
|
|
return modified; |
4263 |
|
|
} |
4264 |
|
|
|
4265 |
|
|
} |
4266 |
|
|
|
4267 |
|
|
/** |
4268 |
|
|
* A view of a ConcurrentHashMapV8 as a {@link Set} of keys, in |
4269 |
|
|
* which additions may optionally be enabled by mapping to a |
4270 |
dl |
1.102 |
* common value. This class cannot be directly instantiated. |
4271 |
|
|
* See {@link #keySet() keySet()}, |
4272 |
|
|
* {@link #keySet(Object) keySet(V)}, |
4273 |
|
|
* {@link #newKeySet() newKeySet()}, |
4274 |
|
|
* {@link #newKeySet(int) newKeySet(int)}. |
4275 |
|
|
* |
4276 |
|
|
* @since 1.8 |
4277 |
dl |
1.75 |
*/ |
4278 |
dl |
1.102 |
public static class KeySetView<K,V> extends CollectionView<K,V,K> |
4279 |
dl |
1.82 |
implements Set<K>, java.io.Serializable { |
4280 |
dl |
1.75 |
private static final long serialVersionUID = 7249069246763182397L; |
4281 |
|
|
private final V value; |
4282 |
jsr166 |
1.99 |
KeySetView(ConcurrentHashMapV8<K,V> map, V value) { // non-public |
4283 |
dl |
1.75 |
super(map); |
4284 |
|
|
this.value = value; |
4285 |
|
|
} |
4286 |
|
|
|
4287 |
|
|
/** |
4288 |
|
|
* Returns the default mapped value for additions, |
4289 |
|
|
* or {@code null} if additions are not supported. |
4290 |
|
|
* |
4291 |
|
|
* @return the default mapped value for additions, or {@code null} |
4292 |
jsr166 |
1.93 |
* if not supported |
4293 |
dl |
1.75 |
*/ |
4294 |
|
|
public V getMappedValue() { return value; } |
4295 |
|
|
|
4296 |
dl |
1.102 |
/** |
4297 |
|
|
* {@inheritDoc} |
4298 |
|
|
* @throws NullPointerException if the specified key is null |
4299 |
|
|
*/ |
4300 |
|
|
public boolean contains(Object o) { return map.containsKey(o); } |
4301 |
|
|
|
4302 |
|
|
/** |
4303 |
|
|
* Removes the key from this map view, by removing the key (and its |
4304 |
|
|
* corresponding value) from the backing map. This method does |
4305 |
|
|
* nothing if the key is not in the map. |
4306 |
|
|
* |
4307 |
|
|
* @param o the key to be removed from the backing map |
4308 |
|
|
* @return {@code true} if the backing map contained the specified key |
4309 |
|
|
* @throws NullPointerException if the specified key is null |
4310 |
|
|
*/ |
4311 |
|
|
public boolean remove(Object o) { return map.remove(o) != null; } |
4312 |
dl |
1.75 |
|
4313 |
dl |
1.102 |
/** |
4314 |
|
|
* @return an iterator over the keys of the backing map |
4315 |
|
|
*/ |
4316 |
|
|
public Iterator<K> iterator() { |
4317 |
|
|
Node<K,V>[] t; |
4318 |
|
|
ConcurrentHashMapV8<K,V> m = map; |
4319 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4320 |
|
|
return new KeyIterator<K,V>(t, f, 0, f, m); |
4321 |
|
|
} |
4322 |
dl |
1.75 |
|
4323 |
|
|
/** |
4324 |
dl |
1.102 |
* Adds the specified key to this set view by mapping the key to |
4325 |
|
|
* the default mapped value in the backing map, if defined. |
4326 |
dl |
1.75 |
* |
4327 |
dl |
1.102 |
* @param e key to be added |
4328 |
|
|
* @return {@code true} if this set changed as a result of the call |
4329 |
|
|
* @throws NullPointerException if the specified key is null |
4330 |
|
|
* @throws UnsupportedOperationException if no default mapped value |
4331 |
|
|
* for additions was provided |
4332 |
dl |
1.75 |
*/ |
4333 |
|
|
public boolean add(K e) { |
4334 |
|
|
V v; |
4335 |
|
|
if ((v = value) == null) |
4336 |
|
|
throw new UnsupportedOperationException(); |
4337 |
dl |
1.102 |
return map.putVal(e, v, true) == null; |
4338 |
dl |
1.75 |
} |
4339 |
dl |
1.102 |
|
4340 |
|
|
/** |
4341 |
|
|
* Adds all of the elements in the specified collection to this set, |
4342 |
|
|
* as if by calling {@link #add} on each one. |
4343 |
|
|
* |
4344 |
|
|
* @param c the elements to be inserted into this set |
4345 |
|
|
* @return {@code true} if this set changed as a result of the call |
4346 |
|
|
* @throws NullPointerException if the collection or any of its |
4347 |
|
|
* elements are {@code null} |
4348 |
|
|
* @throws UnsupportedOperationException if no default mapped value |
4349 |
|
|
* for additions was provided |
4350 |
|
|
*/ |
4351 |
dl |
1.75 |
public boolean addAll(Collection<? extends K> c) { |
4352 |
|
|
boolean added = false; |
4353 |
|
|
V v; |
4354 |
|
|
if ((v = value) == null) |
4355 |
|
|
throw new UnsupportedOperationException(); |
4356 |
|
|
for (K e : c) { |
4357 |
dl |
1.102 |
if (map.putVal(e, v, true) == null) |
4358 |
dl |
1.75 |
added = true; |
4359 |
|
|
} |
4360 |
|
|
return added; |
4361 |
|
|
} |
4362 |
dl |
1.102 |
|
4363 |
|
|
public int hashCode() { |
4364 |
|
|
int h = 0; |
4365 |
|
|
for (K e : this) |
4366 |
|
|
h += e.hashCode(); |
4367 |
|
|
return h; |
4368 |
|
|
} |
4369 |
|
|
|
4370 |
dl |
1.75 |
public boolean equals(Object o) { |
4371 |
|
|
Set<?> c; |
4372 |
|
|
return ((o instanceof Set) && |
4373 |
|
|
((c = (Set<?>)o) == this || |
4374 |
|
|
(containsAll(c) && c.containsAll(this)))); |
4375 |
|
|
} |
4376 |
dl |
1.102 |
|
4377 |
|
|
public ConcurrentHashMapSpliterator<K> spliterator() { |
4378 |
|
|
Node<K,V>[] t; |
4379 |
|
|
ConcurrentHashMapV8<K,V> m = map; |
4380 |
|
|
long n = m.sumCount(); |
4381 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4382 |
|
|
return new KeySpliterator<K,V>(t, f, 0, f, n < 0L ? 0L : n); |
4383 |
|
|
} |
4384 |
|
|
|
4385 |
|
|
public void forEach(Action<? super K> action) { |
4386 |
|
|
if (action == null) throw new NullPointerException(); |
4387 |
|
|
Node<K,V>[] t; |
4388 |
|
|
if ((t = map.table) != null) { |
4389 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
4390 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) |
4391 |
|
|
action.apply(p.key); |
4392 |
|
|
} |
4393 |
|
|
} |
4394 |
dl |
1.75 |
} |
4395 |
|
|
|
4396 |
|
|
/** |
4397 |
|
|
* A view of a ConcurrentHashMapV8 as a {@link Collection} of |
4398 |
|
|
* values, in which additions are disabled. This class cannot be |
4399 |
jsr166 |
1.96 |
* directly instantiated. See {@link #values()}. |
4400 |
dl |
1.75 |
*/ |
4401 |
dl |
1.102 |
static final class ValuesView<K,V> extends CollectionView<K,V,V> |
4402 |
|
|
implements Collection<V>, java.io.Serializable { |
4403 |
|
|
private static final long serialVersionUID = 2249069246763182397L; |
4404 |
|
|
ValuesView(ConcurrentHashMapV8<K,V> map) { super(map); } |
4405 |
|
|
public final boolean contains(Object o) { |
4406 |
|
|
return map.containsValue(o); |
4407 |
|
|
} |
4408 |
|
|
|
4409 |
dl |
1.75 |
public final boolean remove(Object o) { |
4410 |
|
|
if (o != null) { |
4411 |
dl |
1.102 |
for (Iterator<V> it = iterator(); it.hasNext();) { |
4412 |
dl |
1.75 |
if (o.equals(it.next())) { |
4413 |
|
|
it.remove(); |
4414 |
|
|
return true; |
4415 |
|
|
} |
4416 |
|
|
} |
4417 |
|
|
} |
4418 |
|
|
return false; |
4419 |
|
|
} |
4420 |
|
|
|
4421 |
|
|
public final Iterator<V> iterator() { |
4422 |
dl |
1.102 |
ConcurrentHashMapV8<K,V> m = map; |
4423 |
|
|
Node<K,V>[] t; |
4424 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4425 |
|
|
return new ValueIterator<K,V>(t, f, 0, f, m); |
4426 |
dl |
1.75 |
} |
4427 |
dl |
1.102 |
|
4428 |
dl |
1.75 |
public final boolean add(V e) { |
4429 |
|
|
throw new UnsupportedOperationException(); |
4430 |
|
|
} |
4431 |
|
|
public final boolean addAll(Collection<? extends V> c) { |
4432 |
|
|
throw new UnsupportedOperationException(); |
4433 |
|
|
} |
4434 |
|
|
|
4435 |
dl |
1.102 |
public ConcurrentHashMapSpliterator<V> spliterator() { |
4436 |
|
|
Node<K,V>[] t; |
4437 |
|
|
ConcurrentHashMapV8<K,V> m = map; |
4438 |
|
|
long n = m.sumCount(); |
4439 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4440 |
|
|
return new ValueSpliterator<K,V>(t, f, 0, f, n < 0L ? 0L : n); |
4441 |
|
|
} |
4442 |
|
|
|
4443 |
|
|
public void forEach(Action<? super V> action) { |
4444 |
|
|
if (action == null) throw new NullPointerException(); |
4445 |
|
|
Node<K,V>[] t; |
4446 |
|
|
if ((t = map.table) != null) { |
4447 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
4448 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) |
4449 |
|
|
action.apply(p.val); |
4450 |
|
|
} |
4451 |
|
|
} |
4452 |
dl |
1.70 |
} |
4453 |
dl |
1.52 |
|
4454 |
dl |
1.70 |
/** |
4455 |
dl |
1.75 |
* A view of a ConcurrentHashMapV8 as a {@link Set} of (key, value) |
4456 |
|
|
* entries. This class cannot be directly instantiated. See |
4457 |
jsr166 |
1.95 |
* {@link #entrySet()}. |
4458 |
dl |
1.70 |
*/ |
4459 |
dl |
1.102 |
static final class EntrySetView<K,V> extends CollectionView<K,V,Map.Entry<K,V>> |
4460 |
|
|
implements Set<Map.Entry<K,V>>, java.io.Serializable { |
4461 |
|
|
private static final long serialVersionUID = 2249069246763182397L; |
4462 |
jsr166 |
1.99 |
EntrySetView(ConcurrentHashMapV8<K,V> map) { super(map); } |
4463 |
dl |
1.102 |
|
4464 |
|
|
public boolean contains(Object o) { |
4465 |
dl |
1.75 |
Object k, v, r; Map.Entry<?,?> e; |
4466 |
|
|
return ((o instanceof Map.Entry) && |
4467 |
|
|
(k = (e = (Map.Entry<?,?>)o).getKey()) != null && |
4468 |
|
|
(r = map.get(k)) != null && |
4469 |
|
|
(v = e.getValue()) != null && |
4470 |
|
|
(v == r || v.equals(r))); |
4471 |
|
|
} |
4472 |
dl |
1.102 |
|
4473 |
|
|
public boolean remove(Object o) { |
4474 |
dl |
1.75 |
Object k, v; Map.Entry<?,?> e; |
4475 |
|
|
return ((o instanceof Map.Entry) && |
4476 |
|
|
(k = (e = (Map.Entry<?,?>)o).getKey()) != null && |
4477 |
|
|
(v = e.getValue()) != null && |
4478 |
|
|
map.remove(k, v)); |
4479 |
|
|
} |
4480 |
|
|
|
4481 |
|
|
/** |
4482 |
dl |
1.102 |
* @return an iterator over the entries of the backing map |
4483 |
dl |
1.75 |
*/ |
4484 |
dl |
1.102 |
public Iterator<Map.Entry<K,V>> iterator() { |
4485 |
|
|
ConcurrentHashMapV8<K,V> m = map; |
4486 |
|
|
Node<K,V>[] t; |
4487 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4488 |
|
|
return new EntryIterator<K,V>(t, f, 0, f, m); |
4489 |
dl |
1.75 |
} |
4490 |
|
|
|
4491 |
dl |
1.102 |
public boolean add(Entry<K,V> e) { |
4492 |
|
|
return map.putVal(e.getKey(), e.getValue(), false) == null; |
4493 |
dl |
1.75 |
} |
4494 |
dl |
1.102 |
|
4495 |
|
|
public boolean addAll(Collection<? extends Entry<K,V>> c) { |
4496 |
dl |
1.75 |
boolean added = false; |
4497 |
|
|
for (Entry<K,V> e : c) { |
4498 |
|
|
if (add(e)) |
4499 |
|
|
added = true; |
4500 |
|
|
} |
4501 |
|
|
return added; |
4502 |
|
|
} |
4503 |
dl |
1.52 |
|
4504 |
dl |
1.102 |
public final int hashCode() { |
4505 |
|
|
int h = 0; |
4506 |
|
|
Node<K,V>[] t; |
4507 |
|
|
if ((t = map.table) != null) { |
4508 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
4509 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) { |
4510 |
|
|
h += p.hashCode(); |
4511 |
|
|
} |
4512 |
|
|
} |
4513 |
|
|
return h; |
4514 |
dl |
1.52 |
} |
4515 |
|
|
|
4516 |
dl |
1.102 |
public final boolean equals(Object o) { |
4517 |
|
|
Set<?> c; |
4518 |
|
|
return ((o instanceof Set) && |
4519 |
|
|
((c = (Set<?>)o) == this || |
4520 |
|
|
(containsAll(c) && c.containsAll(this)))); |
4521 |
dl |
1.52 |
} |
4522 |
|
|
|
4523 |
dl |
1.102 |
public ConcurrentHashMapSpliterator<Map.Entry<K,V>> spliterator() { |
4524 |
|
|
Node<K,V>[] t; |
4525 |
|
|
ConcurrentHashMapV8<K,V> m = map; |
4526 |
|
|
long n = m.sumCount(); |
4527 |
|
|
int f = (t = m.table) == null ? 0 : t.length; |
4528 |
|
|
return new EntrySpliterator<K,V>(t, f, 0, f, n < 0L ? 0L : n, m); |
4529 |
dl |
1.52 |
} |
4530 |
|
|
|
4531 |
dl |
1.102 |
public void forEach(Action<? super Map.Entry<K,V>> action) { |
4532 |
|
|
if (action == null) throw new NullPointerException(); |
4533 |
|
|
Node<K,V>[] t; |
4534 |
|
|
if ((t = map.table) != null) { |
4535 |
|
|
Traverser<K,V> it = new Traverser<K,V>(t, t.length, 0, t.length); |
4536 |
|
|
for (Node<K,V> p; (p = it.advance()) != null; ) |
4537 |
|
|
action.apply(new MapEntry<K,V>(p.key, p.val, map)); |
4538 |
|
|
} |
4539 |
dl |
1.52 |
} |
4540 |
|
|
|
4541 |
dl |
1.102 |
} |
4542 |
dl |
1.52 |
|
4543 |
dl |
1.102 |
// ------------------------------------------------------- |
4544 |
dl |
1.52 |
|
4545 |
dl |
1.102 |
/** |
4546 |
|
|
* Base class for bulk tasks. Repeats some fields and code from |
4547 |
|
|
* class Traverser, because we need to subclass CountedCompleter. |
4548 |
|
|
*/ |
4549 |
|
|
abstract static class BulkTask<K,V,R> extends CountedCompleter<R> { |
4550 |
|
|
Node<K,V>[] tab; // same as Traverser |
4551 |
|
|
Node<K,V> next; |
4552 |
|
|
int index; |
4553 |
|
|
int baseIndex; |
4554 |
|
|
int baseLimit; |
4555 |
|
|
final int baseSize; |
4556 |
|
|
int batch; // split control |
4557 |
|
|
|
4558 |
|
|
BulkTask(BulkTask<K,V,?> par, int b, int i, int f, Node<K,V>[] t) { |
4559 |
|
|
super(par); |
4560 |
|
|
this.batch = b; |
4561 |
|
|
this.index = this.baseIndex = i; |
4562 |
|
|
if ((this.tab = t) == null) |
4563 |
|
|
this.baseSize = this.baseLimit = 0; |
4564 |
|
|
else if (par == null) |
4565 |
|
|
this.baseSize = this.baseLimit = t.length; |
4566 |
|
|
else { |
4567 |
|
|
this.baseLimit = f; |
4568 |
|
|
this.baseSize = par.baseSize; |
4569 |
|
|
} |
4570 |
dl |
1.52 |
} |
4571 |
|
|
|
4572 |
|
|
/** |
4573 |
dl |
1.102 |
* Same as Traverser version |
4574 |
dl |
1.52 |
*/ |
4575 |
dl |
1.102 |
final Node<K,V> advance() { |
4576 |
|
|
Node<K,V> e; |
4577 |
|
|
if ((e = next) != null) |
4578 |
|
|
e = e.next; |
4579 |
|
|
for (;;) { |
4580 |
|
|
Node<K,V>[] t; int i, n; K ek; // must use locals in checks |
4581 |
|
|
if (e != null) |
4582 |
|
|
return next = e; |
4583 |
|
|
if (baseIndex >= baseLimit || (t = tab) == null || |
4584 |
|
|
(n = t.length) <= (i = index) || i < 0) |
4585 |
|
|
return next = null; |
4586 |
|
|
if ((e = tabAt(t, index)) != null && e.hash < 0) { |
4587 |
|
|
if (e instanceof ForwardingNode) { |
4588 |
|
|
tab = ((ForwardingNode<K,V>)e).nextTable; |
4589 |
|
|
e = null; |
4590 |
|
|
continue; |
4591 |
|
|
} |
4592 |
|
|
else if (e instanceof TreeBin) |
4593 |
|
|
e = ((TreeBin<K,V>)e).first; |
4594 |
|
|
else |
4595 |
|
|
e = null; |
4596 |
|
|
} |
4597 |
|
|
if ((index += baseSize) >= n) |
4598 |
|
|
index = ++baseIndex; // visit upper slots if present |
4599 |
|
|
} |
4600 |
dl |
1.52 |
} |
4601 |
|
|
} |
4602 |
|
|
|
4603 |
|
|
/* |
4604 |
|
|
* Task classes. Coded in a regular but ugly format/style to |
4605 |
|
|
* simplify checks that each variant differs in the right way from |
4606 |
dl |
1.82 |
* others. The null screenings exist because compilers cannot tell |
4607 |
|
|
* that we've already null-checked task arguments, so we force |
4608 |
|
|
* simplest hoisted bypass to help avoid convoluted traps. |
4609 |
dl |
1.52 |
*/ |
4610 |
dl |
1.102 |
@SuppressWarnings("serial") |
4611 |
|
|
static final class ForEachKeyTask<K,V> |
4612 |
|
|
extends BulkTask<K,V,Void> { |
4613 |
|
|
final Action<? super K> action; |
4614 |
dl |
1.52 |
ForEachKeyTask |
4615 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4616 |
|
|
Action<? super K> action) { |
4617 |
|
|
super(p, b, i, f, t); |
4618 |
dl |
1.52 |
this.action = action; |
4619 |
|
|
} |
4620 |
dl |
1.102 |
public final void compute() { |
4621 |
|
|
final Action<? super K> action; |
4622 |
dl |
1.82 |
if ((action = this.action) != null) { |
4623 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4624 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4625 |
|
|
addToPendingCount(1); |
4626 |
|
|
new ForEachKeyTask<K,V> |
4627 |
|
|
(this, batch >>>= 1, baseLimit = h, f, tab, |
4628 |
|
|
action).fork(); |
4629 |
|
|
} |
4630 |
|
|
for (Node<K,V> p; (p = advance()) != null;) |
4631 |
|
|
action.apply(p.key); |
4632 |
dl |
1.82 |
propagateCompletion(); |
4633 |
|
|
} |
4634 |
dl |
1.52 |
} |
4635 |
|
|
} |
4636 |
|
|
|
4637 |
dl |
1.102 |
@SuppressWarnings("serial") |
4638 |
|
|
static final class ForEachValueTask<K,V> |
4639 |
|
|
extends BulkTask<K,V,Void> { |
4640 |
|
|
final Action<? super V> action; |
4641 |
dl |
1.52 |
ForEachValueTask |
4642 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4643 |
|
|
Action<? super V> action) { |
4644 |
|
|
super(p, b, i, f, t); |
4645 |
dl |
1.52 |
this.action = action; |
4646 |
|
|
} |
4647 |
dl |
1.102 |
public final void compute() { |
4648 |
|
|
final Action<? super V> action; |
4649 |
dl |
1.82 |
if ((action = this.action) != null) { |
4650 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4651 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4652 |
|
|
addToPendingCount(1); |
4653 |
|
|
new ForEachValueTask<K,V> |
4654 |
|
|
(this, batch >>>= 1, baseLimit = h, f, tab, |
4655 |
|
|
action).fork(); |
4656 |
|
|
} |
4657 |
|
|
for (Node<K,V> p; (p = advance()) != null;) |
4658 |
|
|
action.apply(p.val); |
4659 |
dl |
1.82 |
propagateCompletion(); |
4660 |
|
|
} |
4661 |
dl |
1.52 |
} |
4662 |
|
|
} |
4663 |
|
|
|
4664 |
dl |
1.102 |
@SuppressWarnings("serial") |
4665 |
|
|
static final class ForEachEntryTask<K,V> |
4666 |
|
|
extends BulkTask<K,V,Void> { |
4667 |
|
|
final Action<? super Entry<K,V>> action; |
4668 |
dl |
1.52 |
ForEachEntryTask |
4669 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4670 |
|
|
Action<? super Entry<K,V>> action) { |
4671 |
|
|
super(p, b, i, f, t); |
4672 |
dl |
1.52 |
this.action = action; |
4673 |
|
|
} |
4674 |
dl |
1.102 |
public final void compute() { |
4675 |
|
|
final Action<? super Entry<K,V>> action; |
4676 |
dl |
1.82 |
if ((action = this.action) != null) { |
4677 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4678 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4679 |
|
|
addToPendingCount(1); |
4680 |
|
|
new ForEachEntryTask<K,V> |
4681 |
|
|
(this, batch >>>= 1, baseLimit = h, f, tab, |
4682 |
|
|
action).fork(); |
4683 |
|
|
} |
4684 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
4685 |
|
|
action.apply(p); |
4686 |
dl |
1.82 |
propagateCompletion(); |
4687 |
|
|
} |
4688 |
dl |
1.52 |
} |
4689 |
|
|
} |
4690 |
|
|
|
4691 |
dl |
1.102 |
@SuppressWarnings("serial") |
4692 |
|
|
static final class ForEachMappingTask<K,V> |
4693 |
|
|
extends BulkTask<K,V,Void> { |
4694 |
|
|
final BiAction<? super K, ? super V> action; |
4695 |
dl |
1.52 |
ForEachMappingTask |
4696 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4697 |
|
|
BiAction<? super K,? super V> action) { |
4698 |
|
|
super(p, b, i, f, t); |
4699 |
dl |
1.52 |
this.action = action; |
4700 |
|
|
} |
4701 |
dl |
1.102 |
public final void compute() { |
4702 |
|
|
final BiAction<? super K, ? super V> action; |
4703 |
dl |
1.82 |
if ((action = this.action) != null) { |
4704 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4705 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4706 |
|
|
addToPendingCount(1); |
4707 |
|
|
new ForEachMappingTask<K,V> |
4708 |
|
|
(this, batch >>>= 1, baseLimit = h, f, tab, |
4709 |
|
|
action).fork(); |
4710 |
|
|
} |
4711 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
4712 |
|
|
action.apply(p.key, p.val); |
4713 |
dl |
1.82 |
propagateCompletion(); |
4714 |
|
|
} |
4715 |
dl |
1.52 |
} |
4716 |
|
|
} |
4717 |
|
|
|
4718 |
dl |
1.102 |
@SuppressWarnings("serial") |
4719 |
|
|
static final class ForEachTransformedKeyTask<K,V,U> |
4720 |
|
|
extends BulkTask<K,V,Void> { |
4721 |
dl |
1.52 |
final Fun<? super K, ? extends U> transformer; |
4722 |
dl |
1.102 |
final Action<? super U> action; |
4723 |
dl |
1.52 |
ForEachTransformedKeyTask |
4724 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4725 |
|
|
Fun<? super K, ? extends U> transformer, Action<? super U> action) { |
4726 |
|
|
super(p, b, i, f, t); |
4727 |
dl |
1.79 |
this.transformer = transformer; this.action = action; |
4728 |
|
|
} |
4729 |
dl |
1.102 |
public final void compute() { |
4730 |
dl |
1.79 |
final Fun<? super K, ? extends U> transformer; |
4731 |
dl |
1.102 |
final Action<? super U> action; |
4732 |
dl |
1.82 |
if ((transformer = this.transformer) != null && |
4733 |
|
|
(action = this.action) != null) { |
4734 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4735 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4736 |
|
|
addToPendingCount(1); |
4737 |
dl |
1.82 |
new ForEachTransformedKeyTask<K,V,U> |
4738 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4739 |
|
|
transformer, action).fork(); |
4740 |
|
|
} |
4741 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
4742 |
|
|
U u; |
4743 |
|
|
if ((u = transformer.apply(p.key)) != null) |
4744 |
dl |
1.82 |
action.apply(u); |
4745 |
|
|
} |
4746 |
|
|
propagateCompletion(); |
4747 |
dl |
1.52 |
} |
4748 |
|
|
} |
4749 |
|
|
} |
4750 |
|
|
|
4751 |
dl |
1.102 |
@SuppressWarnings("serial") |
4752 |
|
|
static final class ForEachTransformedValueTask<K,V,U> |
4753 |
|
|
extends BulkTask<K,V,Void> { |
4754 |
dl |
1.52 |
final Fun<? super V, ? extends U> transformer; |
4755 |
dl |
1.102 |
final Action<? super U> action; |
4756 |
dl |
1.52 |
ForEachTransformedValueTask |
4757 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4758 |
|
|
Fun<? super V, ? extends U> transformer, Action<? super U> action) { |
4759 |
|
|
super(p, b, i, f, t); |
4760 |
dl |
1.79 |
this.transformer = transformer; this.action = action; |
4761 |
|
|
} |
4762 |
dl |
1.102 |
public final void compute() { |
4763 |
dl |
1.79 |
final Fun<? super V, ? extends U> transformer; |
4764 |
dl |
1.102 |
final Action<? super U> action; |
4765 |
dl |
1.82 |
if ((transformer = this.transformer) != null && |
4766 |
|
|
(action = this.action) != null) { |
4767 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4768 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4769 |
|
|
addToPendingCount(1); |
4770 |
dl |
1.82 |
new ForEachTransformedValueTask<K,V,U> |
4771 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4772 |
|
|
transformer, action).fork(); |
4773 |
|
|
} |
4774 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
4775 |
|
|
U u; |
4776 |
|
|
if ((u = transformer.apply(p.val)) != null) |
4777 |
dl |
1.82 |
action.apply(u); |
4778 |
|
|
} |
4779 |
|
|
propagateCompletion(); |
4780 |
dl |
1.52 |
} |
4781 |
|
|
} |
4782 |
|
|
} |
4783 |
|
|
|
4784 |
dl |
1.102 |
@SuppressWarnings("serial") |
4785 |
|
|
static final class ForEachTransformedEntryTask<K,V,U> |
4786 |
|
|
extends BulkTask<K,V,Void> { |
4787 |
dl |
1.52 |
final Fun<Map.Entry<K,V>, ? extends U> transformer; |
4788 |
dl |
1.102 |
final Action<? super U> action; |
4789 |
dl |
1.52 |
ForEachTransformedEntryTask |
4790 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4791 |
|
|
Fun<Map.Entry<K,V>, ? extends U> transformer, Action<? super U> action) { |
4792 |
|
|
super(p, b, i, f, t); |
4793 |
dl |
1.79 |
this.transformer = transformer; this.action = action; |
4794 |
|
|
} |
4795 |
dl |
1.102 |
public final void compute() { |
4796 |
dl |
1.79 |
final Fun<Map.Entry<K,V>, ? extends U> transformer; |
4797 |
dl |
1.102 |
final Action<? super U> action; |
4798 |
dl |
1.82 |
if ((transformer = this.transformer) != null && |
4799 |
|
|
(action = this.action) != null) { |
4800 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4801 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4802 |
|
|
addToPendingCount(1); |
4803 |
dl |
1.82 |
new ForEachTransformedEntryTask<K,V,U> |
4804 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4805 |
|
|
transformer, action).fork(); |
4806 |
|
|
} |
4807 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
4808 |
|
|
U u; |
4809 |
|
|
if ((u = transformer.apply(p)) != null) |
4810 |
dl |
1.82 |
action.apply(u); |
4811 |
|
|
} |
4812 |
|
|
propagateCompletion(); |
4813 |
dl |
1.52 |
} |
4814 |
|
|
} |
4815 |
|
|
} |
4816 |
|
|
|
4817 |
dl |
1.102 |
@SuppressWarnings("serial") |
4818 |
|
|
static final class ForEachTransformedMappingTask<K,V,U> |
4819 |
|
|
extends BulkTask<K,V,Void> { |
4820 |
dl |
1.52 |
final BiFun<? super K, ? super V, ? extends U> transformer; |
4821 |
dl |
1.102 |
final Action<? super U> action; |
4822 |
dl |
1.52 |
ForEachTransformedMappingTask |
4823 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4824 |
dl |
1.52 |
BiFun<? super K, ? super V, ? extends U> transformer, |
4825 |
dl |
1.102 |
Action<? super U> action) { |
4826 |
|
|
super(p, b, i, f, t); |
4827 |
dl |
1.79 |
this.transformer = transformer; this.action = action; |
4828 |
dl |
1.52 |
} |
4829 |
dl |
1.102 |
public final void compute() { |
4830 |
dl |
1.79 |
final BiFun<? super K, ? super V, ? extends U> transformer; |
4831 |
dl |
1.102 |
final Action<? super U> action; |
4832 |
dl |
1.82 |
if ((transformer = this.transformer) != null && |
4833 |
|
|
(action = this.action) != null) { |
4834 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4835 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4836 |
|
|
addToPendingCount(1); |
4837 |
dl |
1.82 |
new ForEachTransformedMappingTask<K,V,U> |
4838 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4839 |
|
|
transformer, action).fork(); |
4840 |
|
|
} |
4841 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
4842 |
|
|
U u; |
4843 |
|
|
if ((u = transformer.apply(p.key, p.val)) != null) |
4844 |
dl |
1.82 |
action.apply(u); |
4845 |
|
|
} |
4846 |
|
|
propagateCompletion(); |
4847 |
dl |
1.52 |
} |
4848 |
|
|
} |
4849 |
|
|
} |
4850 |
|
|
|
4851 |
dl |
1.102 |
@SuppressWarnings("serial") |
4852 |
|
|
static final class SearchKeysTask<K,V,U> |
4853 |
|
|
extends BulkTask<K,V,U> { |
4854 |
dl |
1.52 |
final Fun<? super K, ? extends U> searchFunction; |
4855 |
|
|
final AtomicReference<U> result; |
4856 |
|
|
SearchKeysTask |
4857 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4858 |
dl |
1.52 |
Fun<? super K, ? extends U> searchFunction, |
4859 |
|
|
AtomicReference<U> result) { |
4860 |
dl |
1.102 |
super(p, b, i, f, t); |
4861 |
dl |
1.52 |
this.searchFunction = searchFunction; this.result = result; |
4862 |
|
|
} |
4863 |
dl |
1.79 |
public final U getRawResult() { return result.get(); } |
4864 |
dl |
1.102 |
public final void compute() { |
4865 |
dl |
1.79 |
final Fun<? super K, ? extends U> searchFunction; |
4866 |
|
|
final AtomicReference<U> result; |
4867 |
dl |
1.82 |
if ((searchFunction = this.searchFunction) != null && |
4868 |
|
|
(result = this.result) != null) { |
4869 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4870 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4871 |
dl |
1.82 |
if (result.get() != null) |
4872 |
|
|
return; |
4873 |
dl |
1.102 |
addToPendingCount(1); |
4874 |
dl |
1.82 |
new SearchKeysTask<K,V,U> |
4875 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4876 |
|
|
searchFunction, result).fork(); |
4877 |
dl |
1.61 |
} |
4878 |
dl |
1.82 |
while (result.get() == null) { |
4879 |
|
|
U u; |
4880 |
dl |
1.102 |
Node<K,V> p; |
4881 |
|
|
if ((p = advance()) == null) { |
4882 |
dl |
1.82 |
propagateCompletion(); |
4883 |
|
|
break; |
4884 |
|
|
} |
4885 |
dl |
1.102 |
if ((u = searchFunction.apply(p.key)) != null) { |
4886 |
dl |
1.82 |
if (result.compareAndSet(null, u)) |
4887 |
|
|
quietlyCompleteRoot(); |
4888 |
|
|
break; |
4889 |
|
|
} |
4890 |
dl |
1.52 |
} |
4891 |
|
|
} |
4892 |
|
|
} |
4893 |
|
|
} |
4894 |
|
|
|
4895 |
dl |
1.102 |
@SuppressWarnings("serial") |
4896 |
|
|
static final class SearchValuesTask<K,V,U> |
4897 |
|
|
extends BulkTask<K,V,U> { |
4898 |
dl |
1.52 |
final Fun<? super V, ? extends U> searchFunction; |
4899 |
|
|
final AtomicReference<U> result; |
4900 |
|
|
SearchValuesTask |
4901 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4902 |
dl |
1.52 |
Fun<? super V, ? extends U> searchFunction, |
4903 |
|
|
AtomicReference<U> result) { |
4904 |
dl |
1.102 |
super(p, b, i, f, t); |
4905 |
dl |
1.52 |
this.searchFunction = searchFunction; this.result = result; |
4906 |
|
|
} |
4907 |
dl |
1.79 |
public final U getRawResult() { return result.get(); } |
4908 |
dl |
1.102 |
public final void compute() { |
4909 |
dl |
1.79 |
final Fun<? super V, ? extends U> searchFunction; |
4910 |
|
|
final AtomicReference<U> result; |
4911 |
dl |
1.82 |
if ((searchFunction = this.searchFunction) != null && |
4912 |
|
|
(result = this.result) != null) { |
4913 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4914 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4915 |
dl |
1.82 |
if (result.get() != null) |
4916 |
|
|
return; |
4917 |
dl |
1.102 |
addToPendingCount(1); |
4918 |
dl |
1.82 |
new SearchValuesTask<K,V,U> |
4919 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4920 |
|
|
searchFunction, result).fork(); |
4921 |
dl |
1.61 |
} |
4922 |
dl |
1.82 |
while (result.get() == null) { |
4923 |
dl |
1.102 |
U u; |
4924 |
|
|
Node<K,V> p; |
4925 |
|
|
if ((p = advance()) == null) { |
4926 |
dl |
1.82 |
propagateCompletion(); |
4927 |
|
|
break; |
4928 |
|
|
} |
4929 |
dl |
1.102 |
if ((u = searchFunction.apply(p.val)) != null) { |
4930 |
dl |
1.82 |
if (result.compareAndSet(null, u)) |
4931 |
|
|
quietlyCompleteRoot(); |
4932 |
|
|
break; |
4933 |
|
|
} |
4934 |
dl |
1.52 |
} |
4935 |
|
|
} |
4936 |
|
|
} |
4937 |
|
|
} |
4938 |
|
|
|
4939 |
dl |
1.102 |
@SuppressWarnings("serial") |
4940 |
|
|
static final class SearchEntriesTask<K,V,U> |
4941 |
|
|
extends BulkTask<K,V,U> { |
4942 |
dl |
1.52 |
final Fun<Entry<K,V>, ? extends U> searchFunction; |
4943 |
|
|
final AtomicReference<U> result; |
4944 |
|
|
SearchEntriesTask |
4945 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4946 |
dl |
1.52 |
Fun<Entry<K,V>, ? extends U> searchFunction, |
4947 |
|
|
AtomicReference<U> result) { |
4948 |
dl |
1.102 |
super(p, b, i, f, t); |
4949 |
dl |
1.52 |
this.searchFunction = searchFunction; this.result = result; |
4950 |
|
|
} |
4951 |
dl |
1.79 |
public final U getRawResult() { return result.get(); } |
4952 |
dl |
1.102 |
public final void compute() { |
4953 |
dl |
1.79 |
final Fun<Entry<K,V>, ? extends U> searchFunction; |
4954 |
|
|
final AtomicReference<U> result; |
4955 |
dl |
1.82 |
if ((searchFunction = this.searchFunction) != null && |
4956 |
|
|
(result = this.result) != null) { |
4957 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
4958 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
4959 |
dl |
1.82 |
if (result.get() != null) |
4960 |
|
|
return; |
4961 |
dl |
1.102 |
addToPendingCount(1); |
4962 |
dl |
1.82 |
new SearchEntriesTask<K,V,U> |
4963 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
4964 |
|
|
searchFunction, result).fork(); |
4965 |
dl |
1.61 |
} |
4966 |
dl |
1.82 |
while (result.get() == null) { |
4967 |
dl |
1.102 |
U u; |
4968 |
|
|
Node<K,V> p; |
4969 |
|
|
if ((p = advance()) == null) { |
4970 |
dl |
1.82 |
propagateCompletion(); |
4971 |
|
|
break; |
4972 |
|
|
} |
4973 |
dl |
1.102 |
if ((u = searchFunction.apply(p)) != null) { |
4974 |
dl |
1.82 |
if (result.compareAndSet(null, u)) |
4975 |
|
|
quietlyCompleteRoot(); |
4976 |
|
|
return; |
4977 |
|
|
} |
4978 |
dl |
1.52 |
} |
4979 |
|
|
} |
4980 |
|
|
} |
4981 |
|
|
} |
4982 |
|
|
|
4983 |
dl |
1.102 |
@SuppressWarnings("serial") |
4984 |
|
|
static final class SearchMappingsTask<K,V,U> |
4985 |
|
|
extends BulkTask<K,V,U> { |
4986 |
dl |
1.52 |
final BiFun<? super K, ? super V, ? extends U> searchFunction; |
4987 |
|
|
final AtomicReference<U> result; |
4988 |
|
|
SearchMappingsTask |
4989 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
4990 |
dl |
1.52 |
BiFun<? super K, ? super V, ? extends U> searchFunction, |
4991 |
|
|
AtomicReference<U> result) { |
4992 |
dl |
1.102 |
super(p, b, i, f, t); |
4993 |
dl |
1.52 |
this.searchFunction = searchFunction; this.result = result; |
4994 |
|
|
} |
4995 |
dl |
1.79 |
public final U getRawResult() { return result.get(); } |
4996 |
dl |
1.102 |
public final void compute() { |
4997 |
dl |
1.79 |
final BiFun<? super K, ? super V, ? extends U> searchFunction; |
4998 |
|
|
final AtomicReference<U> result; |
4999 |
dl |
1.82 |
if ((searchFunction = this.searchFunction) != null && |
5000 |
|
|
(result = this.result) != null) { |
5001 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5002 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5003 |
dl |
1.82 |
if (result.get() != null) |
5004 |
|
|
return; |
5005 |
dl |
1.102 |
addToPendingCount(1); |
5006 |
dl |
1.82 |
new SearchMappingsTask<K,V,U> |
5007 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5008 |
|
|
searchFunction, result).fork(); |
5009 |
dl |
1.61 |
} |
5010 |
dl |
1.82 |
while (result.get() == null) { |
5011 |
dl |
1.102 |
U u; |
5012 |
|
|
Node<K,V> p; |
5013 |
|
|
if ((p = advance()) == null) { |
5014 |
dl |
1.82 |
propagateCompletion(); |
5015 |
|
|
break; |
5016 |
|
|
} |
5017 |
dl |
1.102 |
if ((u = searchFunction.apply(p.key, p.val)) != null) { |
5018 |
dl |
1.82 |
if (result.compareAndSet(null, u)) |
5019 |
|
|
quietlyCompleteRoot(); |
5020 |
|
|
break; |
5021 |
|
|
} |
5022 |
dl |
1.52 |
} |
5023 |
|
|
} |
5024 |
|
|
} |
5025 |
|
|
} |
5026 |
|
|
|
5027 |
dl |
1.102 |
@SuppressWarnings("serial") |
5028 |
|
|
static final class ReduceKeysTask<K,V> |
5029 |
|
|
extends BulkTask<K,V,K> { |
5030 |
dl |
1.52 |
final BiFun<? super K, ? super K, ? extends K> reducer; |
5031 |
|
|
K result; |
5032 |
dl |
1.61 |
ReduceKeysTask<K,V> rights, nextRight; |
5033 |
dl |
1.52 |
ReduceKeysTask |
5034 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5035 |
dl |
1.61 |
ReduceKeysTask<K,V> nextRight, |
5036 |
dl |
1.52 |
BiFun<? super K, ? super K, ? extends K> reducer) { |
5037 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5038 |
dl |
1.52 |
this.reducer = reducer; |
5039 |
|
|
} |
5040 |
dl |
1.79 |
public final K getRawResult() { return result; } |
5041 |
dl |
1.102 |
public final void compute() { |
5042 |
dl |
1.82 |
final BiFun<? super K, ? super K, ? extends K> reducer; |
5043 |
|
|
if ((reducer = this.reducer) != null) { |
5044 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5045 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5046 |
|
|
addToPendingCount(1); |
5047 |
dl |
1.82 |
(rights = new ReduceKeysTask<K,V> |
5048 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5049 |
|
|
rights, reducer)).fork(); |
5050 |
|
|
} |
5051 |
dl |
1.82 |
K r = null; |
5052 |
dl |
1.102 |
for (Node<K,V> p; (p = advance()) != null; ) { |
5053 |
|
|
K u = p.key; |
5054 |
|
|
r = (r == null) ? u : u == null ? r : reducer.apply(r, u); |
5055 |
dl |
1.82 |
} |
5056 |
|
|
result = r; |
5057 |
|
|
CountedCompleter<?> c; |
5058 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5059 |
dl |
1.102 |
@SuppressWarnings("unchecked") ReduceKeysTask<K,V> |
5060 |
dl |
1.82 |
t = (ReduceKeysTask<K,V>)c, |
5061 |
|
|
s = t.rights; |
5062 |
|
|
while (s != null) { |
5063 |
|
|
K tr, sr; |
5064 |
|
|
if ((sr = s.result) != null) |
5065 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5066 |
|
|
reducer.apply(tr, sr)); |
5067 |
|
|
s = t.rights = s.nextRight; |
5068 |
|
|
} |
5069 |
dl |
1.52 |
} |
5070 |
dl |
1.71 |
} |
5071 |
dl |
1.52 |
} |
5072 |
|
|
} |
5073 |
|
|
|
5074 |
dl |
1.102 |
@SuppressWarnings("serial") |
5075 |
|
|
static final class ReduceValuesTask<K,V> |
5076 |
|
|
extends BulkTask<K,V,V> { |
5077 |
dl |
1.52 |
final BiFun<? super V, ? super V, ? extends V> reducer; |
5078 |
|
|
V result; |
5079 |
dl |
1.61 |
ReduceValuesTask<K,V> rights, nextRight; |
5080 |
dl |
1.52 |
ReduceValuesTask |
5081 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5082 |
dl |
1.61 |
ReduceValuesTask<K,V> nextRight, |
5083 |
dl |
1.52 |
BiFun<? super V, ? super V, ? extends V> reducer) { |
5084 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5085 |
dl |
1.52 |
this.reducer = reducer; |
5086 |
|
|
} |
5087 |
dl |
1.79 |
public final V getRawResult() { return result; } |
5088 |
dl |
1.102 |
public final void compute() { |
5089 |
dl |
1.82 |
final BiFun<? super V, ? super V, ? extends V> reducer; |
5090 |
|
|
if ((reducer = this.reducer) != null) { |
5091 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5092 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5093 |
|
|
addToPendingCount(1); |
5094 |
dl |
1.82 |
(rights = new ReduceValuesTask<K,V> |
5095 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5096 |
|
|
rights, reducer)).fork(); |
5097 |
|
|
} |
5098 |
dl |
1.82 |
V r = null; |
5099 |
dl |
1.102 |
for (Node<K,V> p; (p = advance()) != null; ) { |
5100 |
|
|
V v = p.val; |
5101 |
|
|
r = (r == null) ? v : reducer.apply(r, v); |
5102 |
dl |
1.82 |
} |
5103 |
|
|
result = r; |
5104 |
|
|
CountedCompleter<?> c; |
5105 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5106 |
dl |
1.102 |
@SuppressWarnings("unchecked") ReduceValuesTask<K,V> |
5107 |
dl |
1.82 |
t = (ReduceValuesTask<K,V>)c, |
5108 |
|
|
s = t.rights; |
5109 |
|
|
while (s != null) { |
5110 |
|
|
V tr, sr; |
5111 |
|
|
if ((sr = s.result) != null) |
5112 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5113 |
|
|
reducer.apply(tr, sr)); |
5114 |
|
|
s = t.rights = s.nextRight; |
5115 |
|
|
} |
5116 |
dl |
1.52 |
} |
5117 |
|
|
} |
5118 |
|
|
} |
5119 |
|
|
} |
5120 |
|
|
|
5121 |
dl |
1.102 |
@SuppressWarnings("serial") |
5122 |
|
|
static final class ReduceEntriesTask<K,V> |
5123 |
|
|
extends BulkTask<K,V,Map.Entry<K,V>> { |
5124 |
dl |
1.52 |
final BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer; |
5125 |
|
|
Map.Entry<K,V> result; |
5126 |
dl |
1.61 |
ReduceEntriesTask<K,V> rights, nextRight; |
5127 |
dl |
1.52 |
ReduceEntriesTask |
5128 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5129 |
dl |
1.63 |
ReduceEntriesTask<K,V> nextRight, |
5130 |
dl |
1.52 |
BiFun<Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer) { |
5131 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5132 |
dl |
1.52 |
this.reducer = reducer; |
5133 |
|
|
} |
5134 |
dl |
1.79 |
public final Map.Entry<K,V> getRawResult() { return result; } |
5135 |
dl |
1.102 |
public final void compute() { |
5136 |
dl |
1.82 |
final BiFun<Map.Entry<K,V>, Map.Entry<K,V>, ? extends Map.Entry<K,V>> reducer; |
5137 |
|
|
if ((reducer = this.reducer) != null) { |
5138 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5139 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5140 |
|
|
addToPendingCount(1); |
5141 |
dl |
1.82 |
(rights = new ReduceEntriesTask<K,V> |
5142 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5143 |
|
|
rights, reducer)).fork(); |
5144 |
|
|
} |
5145 |
dl |
1.82 |
Map.Entry<K,V> r = null; |
5146 |
dl |
1.102 |
for (Node<K,V> p; (p = advance()) != null; ) |
5147 |
|
|
r = (r == null) ? p : reducer.apply(r, p); |
5148 |
dl |
1.82 |
result = r; |
5149 |
|
|
CountedCompleter<?> c; |
5150 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5151 |
dl |
1.102 |
@SuppressWarnings("unchecked") ReduceEntriesTask<K,V> |
5152 |
dl |
1.82 |
t = (ReduceEntriesTask<K,V>)c, |
5153 |
|
|
s = t.rights; |
5154 |
|
|
while (s != null) { |
5155 |
|
|
Map.Entry<K,V> tr, sr; |
5156 |
|
|
if ((sr = s.result) != null) |
5157 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5158 |
|
|
reducer.apply(tr, sr)); |
5159 |
|
|
s = t.rights = s.nextRight; |
5160 |
|
|
} |
5161 |
dl |
1.52 |
} |
5162 |
|
|
} |
5163 |
|
|
} |
5164 |
|
|
} |
5165 |
|
|
|
5166 |
dl |
1.102 |
@SuppressWarnings("serial") |
5167 |
|
|
static final class MapReduceKeysTask<K,V,U> |
5168 |
|
|
extends BulkTask<K,V,U> { |
5169 |
dl |
1.52 |
final Fun<? super K, ? extends U> transformer; |
5170 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5171 |
|
|
U result; |
5172 |
dl |
1.61 |
MapReduceKeysTask<K,V,U> rights, nextRight; |
5173 |
dl |
1.52 |
MapReduceKeysTask |
5174 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5175 |
dl |
1.61 |
MapReduceKeysTask<K,V,U> nextRight, |
5176 |
dl |
1.52 |
Fun<? super K, ? extends U> transformer, |
5177 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
5178 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5179 |
dl |
1.52 |
this.transformer = transformer; |
5180 |
|
|
this.reducer = reducer; |
5181 |
|
|
} |
5182 |
dl |
1.79 |
public final U getRawResult() { return result; } |
5183 |
dl |
1.102 |
public final void compute() { |
5184 |
dl |
1.82 |
final Fun<? super K, ? extends U> transformer; |
5185 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5186 |
|
|
if ((transformer = this.transformer) != null && |
5187 |
|
|
(reducer = this.reducer) != null) { |
5188 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5189 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5190 |
|
|
addToPendingCount(1); |
5191 |
dl |
1.82 |
(rights = new MapReduceKeysTask<K,V,U> |
5192 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5193 |
|
|
rights, transformer, reducer)).fork(); |
5194 |
|
|
} |
5195 |
|
|
U r = null; |
5196 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
5197 |
|
|
U u; |
5198 |
|
|
if ((u = transformer.apply(p.key)) != null) |
5199 |
dl |
1.82 |
r = (r == null) ? u : reducer.apply(r, u); |
5200 |
|
|
} |
5201 |
|
|
result = r; |
5202 |
|
|
CountedCompleter<?> c; |
5203 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5204 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceKeysTask<K,V,U> |
5205 |
dl |
1.82 |
t = (MapReduceKeysTask<K,V,U>)c, |
5206 |
|
|
s = t.rights; |
5207 |
|
|
while (s != null) { |
5208 |
|
|
U tr, sr; |
5209 |
|
|
if ((sr = s.result) != null) |
5210 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5211 |
|
|
reducer.apply(tr, sr)); |
5212 |
|
|
s = t.rights = s.nextRight; |
5213 |
|
|
} |
5214 |
dl |
1.52 |
} |
5215 |
|
|
} |
5216 |
|
|
} |
5217 |
|
|
} |
5218 |
|
|
|
5219 |
dl |
1.102 |
@SuppressWarnings("serial") |
5220 |
|
|
static final class MapReduceValuesTask<K,V,U> |
5221 |
|
|
extends BulkTask<K,V,U> { |
5222 |
dl |
1.52 |
final Fun<? super V, ? extends U> transformer; |
5223 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5224 |
|
|
U result; |
5225 |
dl |
1.61 |
MapReduceValuesTask<K,V,U> rights, nextRight; |
5226 |
dl |
1.52 |
MapReduceValuesTask |
5227 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5228 |
dl |
1.61 |
MapReduceValuesTask<K,V,U> nextRight, |
5229 |
dl |
1.52 |
Fun<? super V, ? extends U> transformer, |
5230 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
5231 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5232 |
dl |
1.52 |
this.transformer = transformer; |
5233 |
|
|
this.reducer = reducer; |
5234 |
|
|
} |
5235 |
dl |
1.79 |
public final U getRawResult() { return result; } |
5236 |
dl |
1.102 |
public final void compute() { |
5237 |
dl |
1.82 |
final Fun<? super V, ? extends U> transformer; |
5238 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5239 |
|
|
if ((transformer = this.transformer) != null && |
5240 |
|
|
(reducer = this.reducer) != null) { |
5241 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5242 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5243 |
|
|
addToPendingCount(1); |
5244 |
dl |
1.82 |
(rights = new MapReduceValuesTask<K,V,U> |
5245 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5246 |
|
|
rights, transformer, reducer)).fork(); |
5247 |
|
|
} |
5248 |
|
|
U r = null; |
5249 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
5250 |
|
|
U u; |
5251 |
|
|
if ((u = transformer.apply(p.val)) != null) |
5252 |
dl |
1.82 |
r = (r == null) ? u : reducer.apply(r, u); |
5253 |
|
|
} |
5254 |
|
|
result = r; |
5255 |
|
|
CountedCompleter<?> c; |
5256 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5257 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceValuesTask<K,V,U> |
5258 |
dl |
1.82 |
t = (MapReduceValuesTask<K,V,U>)c, |
5259 |
|
|
s = t.rights; |
5260 |
|
|
while (s != null) { |
5261 |
|
|
U tr, sr; |
5262 |
|
|
if ((sr = s.result) != null) |
5263 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5264 |
|
|
reducer.apply(tr, sr)); |
5265 |
|
|
s = t.rights = s.nextRight; |
5266 |
|
|
} |
5267 |
dl |
1.52 |
} |
5268 |
dl |
1.71 |
} |
5269 |
dl |
1.52 |
} |
5270 |
|
|
} |
5271 |
|
|
|
5272 |
dl |
1.102 |
@SuppressWarnings("serial") |
5273 |
|
|
static final class MapReduceEntriesTask<K,V,U> |
5274 |
|
|
extends BulkTask<K,V,U> { |
5275 |
dl |
1.52 |
final Fun<Map.Entry<K,V>, ? extends U> transformer; |
5276 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5277 |
|
|
U result; |
5278 |
dl |
1.61 |
MapReduceEntriesTask<K,V,U> rights, nextRight; |
5279 |
dl |
1.52 |
MapReduceEntriesTask |
5280 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5281 |
dl |
1.61 |
MapReduceEntriesTask<K,V,U> nextRight, |
5282 |
dl |
1.52 |
Fun<Map.Entry<K,V>, ? extends U> transformer, |
5283 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
5284 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5285 |
dl |
1.52 |
this.transformer = transformer; |
5286 |
|
|
this.reducer = reducer; |
5287 |
|
|
} |
5288 |
dl |
1.79 |
public final U getRawResult() { return result; } |
5289 |
dl |
1.102 |
public final void compute() { |
5290 |
dl |
1.82 |
final Fun<Map.Entry<K,V>, ? extends U> transformer; |
5291 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5292 |
|
|
if ((transformer = this.transformer) != null && |
5293 |
|
|
(reducer = this.reducer) != null) { |
5294 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5295 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5296 |
|
|
addToPendingCount(1); |
5297 |
dl |
1.82 |
(rights = new MapReduceEntriesTask<K,V,U> |
5298 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5299 |
|
|
rights, transformer, reducer)).fork(); |
5300 |
|
|
} |
5301 |
|
|
U r = null; |
5302 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
5303 |
|
|
U u; |
5304 |
|
|
if ((u = transformer.apply(p)) != null) |
5305 |
dl |
1.82 |
r = (r == null) ? u : reducer.apply(r, u); |
5306 |
|
|
} |
5307 |
|
|
result = r; |
5308 |
|
|
CountedCompleter<?> c; |
5309 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5310 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceEntriesTask<K,V,U> |
5311 |
dl |
1.82 |
t = (MapReduceEntriesTask<K,V,U>)c, |
5312 |
|
|
s = t.rights; |
5313 |
|
|
while (s != null) { |
5314 |
|
|
U tr, sr; |
5315 |
|
|
if ((sr = s.result) != null) |
5316 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5317 |
|
|
reducer.apply(tr, sr)); |
5318 |
|
|
s = t.rights = s.nextRight; |
5319 |
|
|
} |
5320 |
dl |
1.52 |
} |
5321 |
|
|
} |
5322 |
|
|
} |
5323 |
|
|
} |
5324 |
|
|
|
5325 |
dl |
1.102 |
@SuppressWarnings("serial") |
5326 |
|
|
static final class MapReduceMappingsTask<K,V,U> |
5327 |
|
|
extends BulkTask<K,V,U> { |
5328 |
dl |
1.52 |
final BiFun<? super K, ? super V, ? extends U> transformer; |
5329 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5330 |
|
|
U result; |
5331 |
dl |
1.61 |
MapReduceMappingsTask<K,V,U> rights, nextRight; |
5332 |
dl |
1.52 |
MapReduceMappingsTask |
5333 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5334 |
dl |
1.61 |
MapReduceMappingsTask<K,V,U> nextRight, |
5335 |
dl |
1.52 |
BiFun<? super K, ? super V, ? extends U> transformer, |
5336 |
|
|
BiFun<? super U, ? super U, ? extends U> reducer) { |
5337 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5338 |
dl |
1.52 |
this.transformer = transformer; |
5339 |
|
|
this.reducer = reducer; |
5340 |
|
|
} |
5341 |
dl |
1.79 |
public final U getRawResult() { return result; } |
5342 |
dl |
1.102 |
public final void compute() { |
5343 |
dl |
1.82 |
final BiFun<? super K, ? super V, ? extends U> transformer; |
5344 |
|
|
final BiFun<? super U, ? super U, ? extends U> reducer; |
5345 |
|
|
if ((transformer = this.transformer) != null && |
5346 |
|
|
(reducer = this.reducer) != null) { |
5347 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5348 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5349 |
|
|
addToPendingCount(1); |
5350 |
dl |
1.82 |
(rights = new MapReduceMappingsTask<K,V,U> |
5351 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5352 |
|
|
rights, transformer, reducer)).fork(); |
5353 |
|
|
} |
5354 |
|
|
U r = null; |
5355 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) { |
5356 |
|
|
U u; |
5357 |
|
|
if ((u = transformer.apply(p.key, p.val)) != null) |
5358 |
dl |
1.82 |
r = (r == null) ? u : reducer.apply(r, u); |
5359 |
|
|
} |
5360 |
|
|
result = r; |
5361 |
|
|
CountedCompleter<?> c; |
5362 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5363 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceMappingsTask<K,V,U> |
5364 |
dl |
1.82 |
t = (MapReduceMappingsTask<K,V,U>)c, |
5365 |
|
|
s = t.rights; |
5366 |
|
|
while (s != null) { |
5367 |
|
|
U tr, sr; |
5368 |
|
|
if ((sr = s.result) != null) |
5369 |
|
|
t.result = (((tr = t.result) == null) ? sr : |
5370 |
|
|
reducer.apply(tr, sr)); |
5371 |
|
|
s = t.rights = s.nextRight; |
5372 |
|
|
} |
5373 |
dl |
1.52 |
} |
5374 |
dl |
1.71 |
} |
5375 |
dl |
1.52 |
} |
5376 |
|
|
} |
5377 |
|
|
|
5378 |
dl |
1.102 |
@SuppressWarnings("serial") |
5379 |
|
|
static final class MapReduceKeysToDoubleTask<K,V> |
5380 |
|
|
extends BulkTask<K,V,Double> { |
5381 |
dl |
1.52 |
final ObjectToDouble<? super K> transformer; |
5382 |
|
|
final DoubleByDoubleToDouble reducer; |
5383 |
|
|
final double basis; |
5384 |
|
|
double result; |
5385 |
dl |
1.61 |
MapReduceKeysToDoubleTask<K,V> rights, nextRight; |
5386 |
dl |
1.52 |
MapReduceKeysToDoubleTask |
5387 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5388 |
dl |
1.61 |
MapReduceKeysToDoubleTask<K,V> nextRight, |
5389 |
dl |
1.52 |
ObjectToDouble<? super K> transformer, |
5390 |
|
|
double basis, |
5391 |
|
|
DoubleByDoubleToDouble reducer) { |
5392 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5393 |
dl |
1.52 |
this.transformer = transformer; |
5394 |
|
|
this.basis = basis; this.reducer = reducer; |
5395 |
|
|
} |
5396 |
dl |
1.79 |
public final Double getRawResult() { return result; } |
5397 |
dl |
1.102 |
public final void compute() { |
5398 |
dl |
1.82 |
final ObjectToDouble<? super K> transformer; |
5399 |
|
|
final DoubleByDoubleToDouble reducer; |
5400 |
|
|
if ((transformer = this.transformer) != null && |
5401 |
|
|
(reducer = this.reducer) != null) { |
5402 |
|
|
double r = this.basis; |
5403 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5404 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5405 |
|
|
addToPendingCount(1); |
5406 |
dl |
1.82 |
(rights = new MapReduceKeysToDoubleTask<K,V> |
5407 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5408 |
|
|
rights, transformer, r, reducer)).fork(); |
5409 |
|
|
} |
5410 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5411 |
|
|
r = reducer.apply(r, transformer.apply(p.key)); |
5412 |
dl |
1.82 |
result = r; |
5413 |
|
|
CountedCompleter<?> c; |
5414 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5415 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceKeysToDoubleTask<K,V> |
5416 |
dl |
1.82 |
t = (MapReduceKeysToDoubleTask<K,V>)c, |
5417 |
|
|
s = t.rights; |
5418 |
|
|
while (s != null) { |
5419 |
|
|
t.result = reducer.apply(t.result, s.result); |
5420 |
|
|
s = t.rights = s.nextRight; |
5421 |
|
|
} |
5422 |
dl |
1.52 |
} |
5423 |
dl |
1.71 |
} |
5424 |
dl |
1.52 |
} |
5425 |
|
|
} |
5426 |
|
|
|
5427 |
dl |
1.102 |
@SuppressWarnings("serial") |
5428 |
|
|
static final class MapReduceValuesToDoubleTask<K,V> |
5429 |
|
|
extends BulkTask<K,V,Double> { |
5430 |
dl |
1.52 |
final ObjectToDouble<? super V> transformer; |
5431 |
|
|
final DoubleByDoubleToDouble reducer; |
5432 |
|
|
final double basis; |
5433 |
|
|
double result; |
5434 |
dl |
1.61 |
MapReduceValuesToDoubleTask<K,V> rights, nextRight; |
5435 |
dl |
1.52 |
MapReduceValuesToDoubleTask |
5436 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5437 |
dl |
1.61 |
MapReduceValuesToDoubleTask<K,V> nextRight, |
5438 |
dl |
1.52 |
ObjectToDouble<? super V> transformer, |
5439 |
|
|
double basis, |
5440 |
|
|
DoubleByDoubleToDouble reducer) { |
5441 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5442 |
dl |
1.52 |
this.transformer = transformer; |
5443 |
|
|
this.basis = basis; this.reducer = reducer; |
5444 |
|
|
} |
5445 |
dl |
1.79 |
public final Double getRawResult() { return result; } |
5446 |
dl |
1.102 |
public final void compute() { |
5447 |
dl |
1.82 |
final ObjectToDouble<? super V> transformer; |
5448 |
|
|
final DoubleByDoubleToDouble reducer; |
5449 |
|
|
if ((transformer = this.transformer) != null && |
5450 |
|
|
(reducer = this.reducer) != null) { |
5451 |
|
|
double r = this.basis; |
5452 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5453 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5454 |
|
|
addToPendingCount(1); |
5455 |
dl |
1.82 |
(rights = new MapReduceValuesToDoubleTask<K,V> |
5456 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5457 |
|
|
rights, transformer, r, reducer)).fork(); |
5458 |
|
|
} |
5459 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5460 |
|
|
r = reducer.apply(r, transformer.apply(p.val)); |
5461 |
dl |
1.82 |
result = r; |
5462 |
|
|
CountedCompleter<?> c; |
5463 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5464 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceValuesToDoubleTask<K,V> |
5465 |
dl |
1.82 |
t = (MapReduceValuesToDoubleTask<K,V>)c, |
5466 |
|
|
s = t.rights; |
5467 |
|
|
while (s != null) { |
5468 |
|
|
t.result = reducer.apply(t.result, s.result); |
5469 |
|
|
s = t.rights = s.nextRight; |
5470 |
|
|
} |
5471 |
dl |
1.52 |
} |
5472 |
dl |
1.71 |
} |
5473 |
dl |
1.52 |
} |
5474 |
|
|
} |
5475 |
|
|
|
5476 |
dl |
1.102 |
@SuppressWarnings("serial") |
5477 |
|
|
static final class MapReduceEntriesToDoubleTask<K,V> |
5478 |
|
|
extends BulkTask<K,V,Double> { |
5479 |
dl |
1.52 |
final ObjectToDouble<Map.Entry<K,V>> transformer; |
5480 |
|
|
final DoubleByDoubleToDouble reducer; |
5481 |
|
|
final double basis; |
5482 |
|
|
double result; |
5483 |
dl |
1.61 |
MapReduceEntriesToDoubleTask<K,V> rights, nextRight; |
5484 |
dl |
1.52 |
MapReduceEntriesToDoubleTask |
5485 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5486 |
dl |
1.61 |
MapReduceEntriesToDoubleTask<K,V> nextRight, |
5487 |
dl |
1.52 |
ObjectToDouble<Map.Entry<K,V>> transformer, |
5488 |
|
|
double basis, |
5489 |
|
|
DoubleByDoubleToDouble reducer) { |
5490 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5491 |
dl |
1.52 |
this.transformer = transformer; |
5492 |
|
|
this.basis = basis; this.reducer = reducer; |
5493 |
|
|
} |
5494 |
dl |
1.79 |
public final Double getRawResult() { return result; } |
5495 |
dl |
1.102 |
public final void compute() { |
5496 |
dl |
1.82 |
final ObjectToDouble<Map.Entry<K,V>> transformer; |
5497 |
|
|
final DoubleByDoubleToDouble reducer; |
5498 |
|
|
if ((transformer = this.transformer) != null && |
5499 |
|
|
(reducer = this.reducer) != null) { |
5500 |
|
|
double r = this.basis; |
5501 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5502 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5503 |
|
|
addToPendingCount(1); |
5504 |
dl |
1.82 |
(rights = new MapReduceEntriesToDoubleTask<K,V> |
5505 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5506 |
|
|
rights, transformer, r, reducer)).fork(); |
5507 |
|
|
} |
5508 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5509 |
|
|
r = reducer.apply(r, transformer.apply(p)); |
5510 |
dl |
1.82 |
result = r; |
5511 |
|
|
CountedCompleter<?> c; |
5512 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5513 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceEntriesToDoubleTask<K,V> |
5514 |
dl |
1.82 |
t = (MapReduceEntriesToDoubleTask<K,V>)c, |
5515 |
|
|
s = t.rights; |
5516 |
|
|
while (s != null) { |
5517 |
|
|
t.result = reducer.apply(t.result, s.result); |
5518 |
|
|
s = t.rights = s.nextRight; |
5519 |
|
|
} |
5520 |
dl |
1.52 |
} |
5521 |
dl |
1.71 |
} |
5522 |
dl |
1.52 |
} |
5523 |
|
|
} |
5524 |
|
|
|
5525 |
dl |
1.102 |
@SuppressWarnings("serial") |
5526 |
|
|
static final class MapReduceMappingsToDoubleTask<K,V> |
5527 |
|
|
extends BulkTask<K,V,Double> { |
5528 |
dl |
1.52 |
final ObjectByObjectToDouble<? super K, ? super V> transformer; |
5529 |
|
|
final DoubleByDoubleToDouble reducer; |
5530 |
|
|
final double basis; |
5531 |
|
|
double result; |
5532 |
dl |
1.61 |
MapReduceMappingsToDoubleTask<K,V> rights, nextRight; |
5533 |
dl |
1.52 |
MapReduceMappingsToDoubleTask |
5534 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5535 |
dl |
1.61 |
MapReduceMappingsToDoubleTask<K,V> nextRight, |
5536 |
dl |
1.52 |
ObjectByObjectToDouble<? super K, ? super V> transformer, |
5537 |
|
|
double basis, |
5538 |
|
|
DoubleByDoubleToDouble reducer) { |
5539 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5540 |
dl |
1.52 |
this.transformer = transformer; |
5541 |
|
|
this.basis = basis; this.reducer = reducer; |
5542 |
|
|
} |
5543 |
dl |
1.79 |
public final Double getRawResult() { return result; } |
5544 |
dl |
1.102 |
public final void compute() { |
5545 |
dl |
1.82 |
final ObjectByObjectToDouble<? super K, ? super V> transformer; |
5546 |
|
|
final DoubleByDoubleToDouble reducer; |
5547 |
|
|
if ((transformer = this.transformer) != null && |
5548 |
|
|
(reducer = this.reducer) != null) { |
5549 |
|
|
double r = this.basis; |
5550 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5551 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5552 |
|
|
addToPendingCount(1); |
5553 |
dl |
1.82 |
(rights = new MapReduceMappingsToDoubleTask<K,V> |
5554 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5555 |
|
|
rights, transformer, r, reducer)).fork(); |
5556 |
|
|
} |
5557 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5558 |
|
|
r = reducer.apply(r, transformer.apply(p.key, p.val)); |
5559 |
dl |
1.82 |
result = r; |
5560 |
|
|
CountedCompleter<?> c; |
5561 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5562 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceMappingsToDoubleTask<K,V> |
5563 |
dl |
1.82 |
t = (MapReduceMappingsToDoubleTask<K,V>)c, |
5564 |
|
|
s = t.rights; |
5565 |
|
|
while (s != null) { |
5566 |
|
|
t.result = reducer.apply(t.result, s.result); |
5567 |
|
|
s = t.rights = s.nextRight; |
5568 |
|
|
} |
5569 |
dl |
1.52 |
} |
5570 |
dl |
1.71 |
} |
5571 |
dl |
1.52 |
} |
5572 |
|
|
} |
5573 |
|
|
|
5574 |
dl |
1.102 |
@SuppressWarnings("serial") |
5575 |
|
|
static final class MapReduceKeysToLongTask<K,V> |
5576 |
|
|
extends BulkTask<K,V,Long> { |
5577 |
dl |
1.52 |
final ObjectToLong<? super K> transformer; |
5578 |
|
|
final LongByLongToLong reducer; |
5579 |
|
|
final long basis; |
5580 |
|
|
long result; |
5581 |
dl |
1.61 |
MapReduceKeysToLongTask<K,V> rights, nextRight; |
5582 |
dl |
1.52 |
MapReduceKeysToLongTask |
5583 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5584 |
dl |
1.61 |
MapReduceKeysToLongTask<K,V> nextRight, |
5585 |
dl |
1.52 |
ObjectToLong<? super K> transformer, |
5586 |
|
|
long basis, |
5587 |
|
|
LongByLongToLong reducer) { |
5588 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5589 |
dl |
1.52 |
this.transformer = transformer; |
5590 |
|
|
this.basis = basis; this.reducer = reducer; |
5591 |
|
|
} |
5592 |
dl |
1.79 |
public final Long getRawResult() { return result; } |
5593 |
dl |
1.102 |
public final void compute() { |
5594 |
dl |
1.82 |
final ObjectToLong<? super K> transformer; |
5595 |
|
|
final LongByLongToLong reducer; |
5596 |
|
|
if ((transformer = this.transformer) != null && |
5597 |
|
|
(reducer = this.reducer) != null) { |
5598 |
|
|
long r = this.basis; |
5599 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5600 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5601 |
|
|
addToPendingCount(1); |
5602 |
dl |
1.82 |
(rights = new MapReduceKeysToLongTask<K,V> |
5603 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5604 |
|
|
rights, transformer, r, reducer)).fork(); |
5605 |
|
|
} |
5606 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5607 |
|
|
r = reducer.apply(r, transformer.apply(p.key)); |
5608 |
dl |
1.82 |
result = r; |
5609 |
|
|
CountedCompleter<?> c; |
5610 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5611 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceKeysToLongTask<K,V> |
5612 |
dl |
1.82 |
t = (MapReduceKeysToLongTask<K,V>)c, |
5613 |
|
|
s = t.rights; |
5614 |
|
|
while (s != null) { |
5615 |
|
|
t.result = reducer.apply(t.result, s.result); |
5616 |
|
|
s = t.rights = s.nextRight; |
5617 |
|
|
} |
5618 |
dl |
1.52 |
} |
5619 |
dl |
1.71 |
} |
5620 |
dl |
1.52 |
} |
5621 |
|
|
} |
5622 |
|
|
|
5623 |
dl |
1.102 |
@SuppressWarnings("serial") |
5624 |
|
|
static final class MapReduceValuesToLongTask<K,V> |
5625 |
|
|
extends BulkTask<K,V,Long> { |
5626 |
dl |
1.52 |
final ObjectToLong<? super V> transformer; |
5627 |
|
|
final LongByLongToLong reducer; |
5628 |
|
|
final long basis; |
5629 |
|
|
long result; |
5630 |
dl |
1.61 |
MapReduceValuesToLongTask<K,V> rights, nextRight; |
5631 |
dl |
1.52 |
MapReduceValuesToLongTask |
5632 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5633 |
dl |
1.61 |
MapReduceValuesToLongTask<K,V> nextRight, |
5634 |
dl |
1.52 |
ObjectToLong<? super V> transformer, |
5635 |
|
|
long basis, |
5636 |
|
|
LongByLongToLong reducer) { |
5637 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5638 |
dl |
1.52 |
this.transformer = transformer; |
5639 |
|
|
this.basis = basis; this.reducer = reducer; |
5640 |
|
|
} |
5641 |
dl |
1.79 |
public final Long getRawResult() { return result; } |
5642 |
dl |
1.102 |
public final void compute() { |
5643 |
dl |
1.82 |
final ObjectToLong<? super V> transformer; |
5644 |
|
|
final LongByLongToLong reducer; |
5645 |
|
|
if ((transformer = this.transformer) != null && |
5646 |
|
|
(reducer = this.reducer) != null) { |
5647 |
|
|
long r = this.basis; |
5648 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5649 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5650 |
|
|
addToPendingCount(1); |
5651 |
dl |
1.82 |
(rights = new MapReduceValuesToLongTask<K,V> |
5652 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5653 |
|
|
rights, transformer, r, reducer)).fork(); |
5654 |
|
|
} |
5655 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5656 |
|
|
r = reducer.apply(r, transformer.apply(p.val)); |
5657 |
dl |
1.82 |
result = r; |
5658 |
|
|
CountedCompleter<?> c; |
5659 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5660 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceValuesToLongTask<K,V> |
5661 |
dl |
1.82 |
t = (MapReduceValuesToLongTask<K,V>)c, |
5662 |
|
|
s = t.rights; |
5663 |
|
|
while (s != null) { |
5664 |
|
|
t.result = reducer.apply(t.result, s.result); |
5665 |
|
|
s = t.rights = s.nextRight; |
5666 |
|
|
} |
5667 |
dl |
1.52 |
} |
5668 |
dl |
1.71 |
} |
5669 |
dl |
1.52 |
} |
5670 |
|
|
} |
5671 |
|
|
|
5672 |
dl |
1.102 |
@SuppressWarnings("serial") |
5673 |
|
|
static final class MapReduceEntriesToLongTask<K,V> |
5674 |
|
|
extends BulkTask<K,V,Long> { |
5675 |
dl |
1.52 |
final ObjectToLong<Map.Entry<K,V>> transformer; |
5676 |
|
|
final LongByLongToLong reducer; |
5677 |
|
|
final long basis; |
5678 |
|
|
long result; |
5679 |
dl |
1.61 |
MapReduceEntriesToLongTask<K,V> rights, nextRight; |
5680 |
dl |
1.52 |
MapReduceEntriesToLongTask |
5681 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5682 |
dl |
1.61 |
MapReduceEntriesToLongTask<K,V> nextRight, |
5683 |
dl |
1.52 |
ObjectToLong<Map.Entry<K,V>> transformer, |
5684 |
|
|
long basis, |
5685 |
|
|
LongByLongToLong reducer) { |
5686 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5687 |
dl |
1.52 |
this.transformer = transformer; |
5688 |
|
|
this.basis = basis; this.reducer = reducer; |
5689 |
|
|
} |
5690 |
dl |
1.79 |
public final Long getRawResult() { return result; } |
5691 |
dl |
1.102 |
public final void compute() { |
5692 |
dl |
1.82 |
final ObjectToLong<Map.Entry<K,V>> transformer; |
5693 |
|
|
final LongByLongToLong reducer; |
5694 |
|
|
if ((transformer = this.transformer) != null && |
5695 |
|
|
(reducer = this.reducer) != null) { |
5696 |
|
|
long r = this.basis; |
5697 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5698 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5699 |
|
|
addToPendingCount(1); |
5700 |
dl |
1.82 |
(rights = new MapReduceEntriesToLongTask<K,V> |
5701 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5702 |
|
|
rights, transformer, r, reducer)).fork(); |
5703 |
|
|
} |
5704 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5705 |
|
|
r = reducer.apply(r, transformer.apply(p)); |
5706 |
dl |
1.82 |
result = r; |
5707 |
|
|
CountedCompleter<?> c; |
5708 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5709 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceEntriesToLongTask<K,V> |
5710 |
dl |
1.82 |
t = (MapReduceEntriesToLongTask<K,V>)c, |
5711 |
|
|
s = t.rights; |
5712 |
|
|
while (s != null) { |
5713 |
|
|
t.result = reducer.apply(t.result, s.result); |
5714 |
|
|
s = t.rights = s.nextRight; |
5715 |
|
|
} |
5716 |
dl |
1.52 |
} |
5717 |
|
|
} |
5718 |
|
|
} |
5719 |
|
|
} |
5720 |
|
|
|
5721 |
dl |
1.102 |
@SuppressWarnings("serial") |
5722 |
|
|
static final class MapReduceMappingsToLongTask<K,V> |
5723 |
|
|
extends BulkTask<K,V,Long> { |
5724 |
dl |
1.52 |
final ObjectByObjectToLong<? super K, ? super V> transformer; |
5725 |
|
|
final LongByLongToLong reducer; |
5726 |
|
|
final long basis; |
5727 |
|
|
long result; |
5728 |
dl |
1.61 |
MapReduceMappingsToLongTask<K,V> rights, nextRight; |
5729 |
dl |
1.52 |
MapReduceMappingsToLongTask |
5730 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5731 |
dl |
1.61 |
MapReduceMappingsToLongTask<K,V> nextRight, |
5732 |
dl |
1.52 |
ObjectByObjectToLong<? super K, ? super V> transformer, |
5733 |
|
|
long basis, |
5734 |
|
|
LongByLongToLong reducer) { |
5735 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5736 |
dl |
1.52 |
this.transformer = transformer; |
5737 |
|
|
this.basis = basis; this.reducer = reducer; |
5738 |
|
|
} |
5739 |
dl |
1.79 |
public final Long getRawResult() { return result; } |
5740 |
dl |
1.102 |
public final void compute() { |
5741 |
dl |
1.82 |
final ObjectByObjectToLong<? super K, ? super V> transformer; |
5742 |
|
|
final LongByLongToLong reducer; |
5743 |
|
|
if ((transformer = this.transformer) != null && |
5744 |
|
|
(reducer = this.reducer) != null) { |
5745 |
|
|
long r = this.basis; |
5746 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5747 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5748 |
|
|
addToPendingCount(1); |
5749 |
dl |
1.82 |
(rights = new MapReduceMappingsToLongTask<K,V> |
5750 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5751 |
|
|
rights, transformer, r, reducer)).fork(); |
5752 |
|
|
} |
5753 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5754 |
|
|
r = reducer.apply(r, transformer.apply(p.key, p.val)); |
5755 |
dl |
1.82 |
result = r; |
5756 |
|
|
CountedCompleter<?> c; |
5757 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5758 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceMappingsToLongTask<K,V> |
5759 |
dl |
1.82 |
t = (MapReduceMappingsToLongTask<K,V>)c, |
5760 |
|
|
s = t.rights; |
5761 |
|
|
while (s != null) { |
5762 |
|
|
t.result = reducer.apply(t.result, s.result); |
5763 |
|
|
s = t.rights = s.nextRight; |
5764 |
|
|
} |
5765 |
dl |
1.52 |
} |
5766 |
dl |
1.71 |
} |
5767 |
dl |
1.52 |
} |
5768 |
|
|
} |
5769 |
|
|
|
5770 |
dl |
1.102 |
@SuppressWarnings("serial") |
5771 |
|
|
static final class MapReduceKeysToIntTask<K,V> |
5772 |
|
|
extends BulkTask<K,V,Integer> { |
5773 |
dl |
1.52 |
final ObjectToInt<? super K> transformer; |
5774 |
|
|
final IntByIntToInt reducer; |
5775 |
|
|
final int basis; |
5776 |
|
|
int result; |
5777 |
dl |
1.61 |
MapReduceKeysToIntTask<K,V> rights, nextRight; |
5778 |
dl |
1.52 |
MapReduceKeysToIntTask |
5779 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5780 |
dl |
1.61 |
MapReduceKeysToIntTask<K,V> nextRight, |
5781 |
dl |
1.52 |
ObjectToInt<? super K> transformer, |
5782 |
|
|
int basis, |
5783 |
|
|
IntByIntToInt reducer) { |
5784 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5785 |
dl |
1.52 |
this.transformer = transformer; |
5786 |
|
|
this.basis = basis; this.reducer = reducer; |
5787 |
|
|
} |
5788 |
dl |
1.79 |
public final Integer getRawResult() { return result; } |
5789 |
dl |
1.102 |
public final void compute() { |
5790 |
dl |
1.82 |
final ObjectToInt<? super K> transformer; |
5791 |
|
|
final IntByIntToInt reducer; |
5792 |
|
|
if ((transformer = this.transformer) != null && |
5793 |
|
|
(reducer = this.reducer) != null) { |
5794 |
|
|
int r = this.basis; |
5795 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5796 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5797 |
|
|
addToPendingCount(1); |
5798 |
dl |
1.82 |
(rights = new MapReduceKeysToIntTask<K,V> |
5799 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5800 |
|
|
rights, transformer, r, reducer)).fork(); |
5801 |
|
|
} |
5802 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5803 |
|
|
r = reducer.apply(r, transformer.apply(p.key)); |
5804 |
dl |
1.82 |
result = r; |
5805 |
|
|
CountedCompleter<?> c; |
5806 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5807 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceKeysToIntTask<K,V> |
5808 |
dl |
1.82 |
t = (MapReduceKeysToIntTask<K,V>)c, |
5809 |
|
|
s = t.rights; |
5810 |
|
|
while (s != null) { |
5811 |
|
|
t.result = reducer.apply(t.result, s.result); |
5812 |
|
|
s = t.rights = s.nextRight; |
5813 |
|
|
} |
5814 |
dl |
1.52 |
} |
5815 |
dl |
1.71 |
} |
5816 |
dl |
1.52 |
} |
5817 |
|
|
} |
5818 |
|
|
|
5819 |
dl |
1.102 |
@SuppressWarnings("serial") |
5820 |
|
|
static final class MapReduceValuesToIntTask<K,V> |
5821 |
|
|
extends BulkTask<K,V,Integer> { |
5822 |
dl |
1.52 |
final ObjectToInt<? super V> transformer; |
5823 |
|
|
final IntByIntToInt reducer; |
5824 |
|
|
final int basis; |
5825 |
|
|
int result; |
5826 |
dl |
1.61 |
MapReduceValuesToIntTask<K,V> rights, nextRight; |
5827 |
dl |
1.52 |
MapReduceValuesToIntTask |
5828 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5829 |
dl |
1.61 |
MapReduceValuesToIntTask<K,V> nextRight, |
5830 |
dl |
1.52 |
ObjectToInt<? super V> transformer, |
5831 |
|
|
int basis, |
5832 |
|
|
IntByIntToInt reducer) { |
5833 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5834 |
dl |
1.52 |
this.transformer = transformer; |
5835 |
|
|
this.basis = basis; this.reducer = reducer; |
5836 |
|
|
} |
5837 |
dl |
1.79 |
public final Integer getRawResult() { return result; } |
5838 |
dl |
1.102 |
public final void compute() { |
5839 |
dl |
1.82 |
final ObjectToInt<? super V> transformer; |
5840 |
|
|
final IntByIntToInt reducer; |
5841 |
|
|
if ((transformer = this.transformer) != null && |
5842 |
|
|
(reducer = this.reducer) != null) { |
5843 |
|
|
int r = this.basis; |
5844 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5845 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5846 |
|
|
addToPendingCount(1); |
5847 |
dl |
1.82 |
(rights = new MapReduceValuesToIntTask<K,V> |
5848 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5849 |
|
|
rights, transformer, r, reducer)).fork(); |
5850 |
|
|
} |
5851 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5852 |
|
|
r = reducer.apply(r, transformer.apply(p.val)); |
5853 |
dl |
1.82 |
result = r; |
5854 |
|
|
CountedCompleter<?> c; |
5855 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5856 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceValuesToIntTask<K,V> |
5857 |
dl |
1.82 |
t = (MapReduceValuesToIntTask<K,V>)c, |
5858 |
|
|
s = t.rights; |
5859 |
|
|
while (s != null) { |
5860 |
|
|
t.result = reducer.apply(t.result, s.result); |
5861 |
|
|
s = t.rights = s.nextRight; |
5862 |
|
|
} |
5863 |
dl |
1.52 |
} |
5864 |
dl |
1.71 |
} |
5865 |
dl |
1.52 |
} |
5866 |
|
|
} |
5867 |
|
|
|
5868 |
dl |
1.102 |
@SuppressWarnings("serial") |
5869 |
|
|
static final class MapReduceEntriesToIntTask<K,V> |
5870 |
|
|
extends BulkTask<K,V,Integer> { |
5871 |
dl |
1.52 |
final ObjectToInt<Map.Entry<K,V>> transformer; |
5872 |
|
|
final IntByIntToInt reducer; |
5873 |
|
|
final int basis; |
5874 |
|
|
int result; |
5875 |
dl |
1.61 |
MapReduceEntriesToIntTask<K,V> rights, nextRight; |
5876 |
dl |
1.52 |
MapReduceEntriesToIntTask |
5877 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5878 |
dl |
1.61 |
MapReduceEntriesToIntTask<K,V> nextRight, |
5879 |
dl |
1.52 |
ObjectToInt<Map.Entry<K,V>> transformer, |
5880 |
|
|
int basis, |
5881 |
|
|
IntByIntToInt reducer) { |
5882 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5883 |
dl |
1.52 |
this.transformer = transformer; |
5884 |
|
|
this.basis = basis; this.reducer = reducer; |
5885 |
|
|
} |
5886 |
dl |
1.79 |
public final Integer getRawResult() { return result; } |
5887 |
dl |
1.102 |
public final void compute() { |
5888 |
dl |
1.82 |
final ObjectToInt<Map.Entry<K,V>> transformer; |
5889 |
|
|
final IntByIntToInt reducer; |
5890 |
|
|
if ((transformer = this.transformer) != null && |
5891 |
|
|
(reducer = this.reducer) != null) { |
5892 |
|
|
int r = this.basis; |
5893 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5894 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5895 |
|
|
addToPendingCount(1); |
5896 |
dl |
1.82 |
(rights = new MapReduceEntriesToIntTask<K,V> |
5897 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5898 |
|
|
rights, transformer, r, reducer)).fork(); |
5899 |
|
|
} |
5900 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5901 |
|
|
r = reducer.apply(r, transformer.apply(p)); |
5902 |
dl |
1.82 |
result = r; |
5903 |
|
|
CountedCompleter<?> c; |
5904 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5905 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceEntriesToIntTask<K,V> |
5906 |
dl |
1.82 |
t = (MapReduceEntriesToIntTask<K,V>)c, |
5907 |
|
|
s = t.rights; |
5908 |
|
|
while (s != null) { |
5909 |
|
|
t.result = reducer.apply(t.result, s.result); |
5910 |
|
|
s = t.rights = s.nextRight; |
5911 |
|
|
} |
5912 |
dl |
1.52 |
} |
5913 |
|
|
} |
5914 |
|
|
} |
5915 |
|
|
} |
5916 |
|
|
|
5917 |
dl |
1.102 |
@SuppressWarnings("serial") |
5918 |
|
|
static final class MapReduceMappingsToIntTask<K,V> |
5919 |
|
|
extends BulkTask<K,V,Integer> { |
5920 |
dl |
1.52 |
final ObjectByObjectToInt<? super K, ? super V> transformer; |
5921 |
|
|
final IntByIntToInt reducer; |
5922 |
|
|
final int basis; |
5923 |
|
|
int result; |
5924 |
dl |
1.61 |
MapReduceMappingsToIntTask<K,V> rights, nextRight; |
5925 |
dl |
1.52 |
MapReduceMappingsToIntTask |
5926 |
dl |
1.102 |
(BulkTask<K,V,?> p, int b, int i, int f, Node<K,V>[] t, |
5927 |
dl |
1.79 |
MapReduceMappingsToIntTask<K,V> nextRight, |
5928 |
dl |
1.52 |
ObjectByObjectToInt<? super K, ? super V> transformer, |
5929 |
|
|
int basis, |
5930 |
|
|
IntByIntToInt reducer) { |
5931 |
dl |
1.102 |
super(p, b, i, f, t); this.nextRight = nextRight; |
5932 |
dl |
1.52 |
this.transformer = transformer; |
5933 |
|
|
this.basis = basis; this.reducer = reducer; |
5934 |
|
|
} |
5935 |
dl |
1.79 |
public final Integer getRawResult() { return result; } |
5936 |
dl |
1.102 |
public final void compute() { |
5937 |
dl |
1.82 |
final ObjectByObjectToInt<? super K, ? super V> transformer; |
5938 |
|
|
final IntByIntToInt reducer; |
5939 |
|
|
if ((transformer = this.transformer) != null && |
5940 |
|
|
(reducer = this.reducer) != null) { |
5941 |
|
|
int r = this.basis; |
5942 |
dl |
1.102 |
for (int i = baseIndex, f, h; batch > 0 && |
5943 |
|
|
(h = ((f = baseLimit) + i) >>> 1) > i;) { |
5944 |
|
|
addToPendingCount(1); |
5945 |
dl |
1.82 |
(rights = new MapReduceMappingsToIntTask<K,V> |
5946 |
dl |
1.102 |
(this, batch >>>= 1, baseLimit = h, f, tab, |
5947 |
|
|
rights, transformer, r, reducer)).fork(); |
5948 |
|
|
} |
5949 |
|
|
for (Node<K,V> p; (p = advance()) != null; ) |
5950 |
|
|
r = reducer.apply(r, transformer.apply(p.key, p.val)); |
5951 |
dl |
1.82 |
result = r; |
5952 |
|
|
CountedCompleter<?> c; |
5953 |
|
|
for (c = firstComplete(); c != null; c = c.nextComplete()) { |
5954 |
dl |
1.102 |
@SuppressWarnings("unchecked") MapReduceMappingsToIntTask<K,V> |
5955 |
dl |
1.82 |
t = (MapReduceMappingsToIntTask<K,V>)c, |
5956 |
|
|
s = t.rights; |
5957 |
|
|
while (s != null) { |
5958 |
|
|
t.result = reducer.apply(t.result, s.result); |
5959 |
|
|
s = t.rights = s.nextRight; |
5960 |
|
|
} |
5961 |
dl |
1.52 |
} |
5962 |
|
|
} |
5963 |
|
|
} |
5964 |
|
|
} |
5965 |
|
|
|
5966 |
dl |
1.102 |
/* ---------------- Counters -------------- */ |
5967 |
|
|
|
5968 |
|
|
// Adapted from LongAdder and Striped64. |
5969 |
|
|
// See their internal docs for explanation. |
5970 |
|
|
|
5971 |
|
|
// A padded cell for distributing counts |
5972 |
|
|
static final class CounterCell { |
5973 |
|
|
volatile long p0, p1, p2, p3, p4, p5, p6; |
5974 |
|
|
volatile long value; |
5975 |
|
|
volatile long q0, q1, q2, q3, q4, q5, q6; |
5976 |
|
|
CounterCell(long x) { value = x; } |
5977 |
|
|
} |
5978 |
|
|
|
5979 |
|
|
/** |
5980 |
|
|
* Holder for the thread-local hash code determining which |
5981 |
|
|
* CounterCell to use. The code is initialized via the |
5982 |
|
|
* counterHashCodeGenerator, but may be moved upon collisions. |
5983 |
|
|
*/ |
5984 |
|
|
static final class CounterHashCode { |
5985 |
|
|
int code; |
5986 |
|
|
} |
5987 |
|
|
|
5988 |
|
|
/** |
5989 |
jsr166 |
1.105 |
* Generates initial value for per-thread CounterHashCodes. |
5990 |
dl |
1.102 |
*/ |
5991 |
|
|
static final AtomicInteger counterHashCodeGenerator = new AtomicInteger(); |
5992 |
|
|
|
5993 |
|
|
/** |
5994 |
|
|
* Increment for counterHashCodeGenerator. See class ThreadLocal |
5995 |
|
|
* for explanation. |
5996 |
|
|
*/ |
5997 |
|
|
static final int SEED_INCREMENT = 0x61c88647; |
5998 |
|
|
|
5999 |
|
|
/** |
6000 |
|
|
* Per-thread counter hash codes. Shared across all instances. |
6001 |
|
|
*/ |
6002 |
|
|
static final ThreadLocal<CounterHashCode> threadCounterHashCode = |
6003 |
|
|
new ThreadLocal<CounterHashCode>(); |
6004 |
|
|
|
6005 |
|
|
|
6006 |
|
|
final long sumCount() { |
6007 |
|
|
CounterCell[] as = counterCells; CounterCell a; |
6008 |
|
|
long sum = baseCount; |
6009 |
|
|
if (as != null) { |
6010 |
|
|
for (int i = 0; i < as.length; ++i) { |
6011 |
|
|
if ((a = as[i]) != null) |
6012 |
|
|
sum += a.value; |
6013 |
|
|
} |
6014 |
|
|
} |
6015 |
|
|
return sum; |
6016 |
|
|
} |
6017 |
|
|
|
6018 |
|
|
// See LongAdder version for explanation |
6019 |
|
|
private final void fullAddCount(long x, CounterHashCode hc, |
6020 |
|
|
boolean wasUncontended) { |
6021 |
|
|
int h; |
6022 |
|
|
if (hc == null) { |
6023 |
|
|
hc = new CounterHashCode(); |
6024 |
|
|
int s = counterHashCodeGenerator.addAndGet(SEED_INCREMENT); |
6025 |
|
|
h = hc.code = (s == 0) ? 1 : s; // Avoid zero |
6026 |
|
|
threadCounterHashCode.set(hc); |
6027 |
|
|
} |
6028 |
|
|
else |
6029 |
|
|
h = hc.code; |
6030 |
|
|
boolean collide = false; // True if last slot nonempty |
6031 |
|
|
for (;;) { |
6032 |
|
|
CounterCell[] as; CounterCell a; int n; long v; |
6033 |
|
|
if ((as = counterCells) != null && (n = as.length) > 0) { |
6034 |
|
|
if ((a = as[(n - 1) & h]) == null) { |
6035 |
|
|
if (cellsBusy == 0) { // Try to attach new Cell |
6036 |
|
|
CounterCell r = new CounterCell(x); // Optimistic create |
6037 |
|
|
if (cellsBusy == 0 && |
6038 |
|
|
U.compareAndSwapInt(this, CELLSBUSY, 0, 1)) { |
6039 |
|
|
boolean created = false; |
6040 |
|
|
try { // Recheck under lock |
6041 |
|
|
CounterCell[] rs; int m, j; |
6042 |
|
|
if ((rs = counterCells) != null && |
6043 |
|
|
(m = rs.length) > 0 && |
6044 |
|
|
rs[j = (m - 1) & h] == null) { |
6045 |
|
|
rs[j] = r; |
6046 |
|
|
created = true; |
6047 |
|
|
} |
6048 |
|
|
} finally { |
6049 |
|
|
cellsBusy = 0; |
6050 |
|
|
} |
6051 |
|
|
if (created) |
6052 |
|
|
break; |
6053 |
|
|
continue; // Slot is now non-empty |
6054 |
|
|
} |
6055 |
|
|
} |
6056 |
|
|
collide = false; |
6057 |
|
|
} |
6058 |
|
|
else if (!wasUncontended) // CAS already known to fail |
6059 |
|
|
wasUncontended = true; // Continue after rehash |
6060 |
|
|
else if (U.compareAndSwapLong(a, CELLVALUE, v = a.value, v + x)) |
6061 |
|
|
break; |
6062 |
|
|
else if (counterCells != as || n >= NCPU) |
6063 |
|
|
collide = false; // At max size or stale |
6064 |
|
|
else if (!collide) |
6065 |
|
|
collide = true; |
6066 |
|
|
else if (cellsBusy == 0 && |
6067 |
|
|
U.compareAndSwapInt(this, CELLSBUSY, 0, 1)) { |
6068 |
|
|
try { |
6069 |
|
|
if (counterCells == as) {// Expand table unless stale |
6070 |
|
|
CounterCell[] rs = new CounterCell[n << 1]; |
6071 |
|
|
for (int i = 0; i < n; ++i) |
6072 |
|
|
rs[i] = as[i]; |
6073 |
|
|
counterCells = rs; |
6074 |
|
|
} |
6075 |
|
|
} finally { |
6076 |
|
|
cellsBusy = 0; |
6077 |
|
|
} |
6078 |
|
|
collide = false; |
6079 |
|
|
continue; // Retry with expanded table |
6080 |
|
|
} |
6081 |
|
|
h ^= h << 13; // Rehash |
6082 |
|
|
h ^= h >>> 17; |
6083 |
|
|
h ^= h << 5; |
6084 |
|
|
} |
6085 |
|
|
else if (cellsBusy == 0 && counterCells == as && |
6086 |
|
|
U.compareAndSwapInt(this, CELLSBUSY, 0, 1)) { |
6087 |
|
|
boolean init = false; |
6088 |
|
|
try { // Initialize table |
6089 |
|
|
if (counterCells == as) { |
6090 |
|
|
CounterCell[] rs = new CounterCell[2]; |
6091 |
|
|
rs[h & 1] = new CounterCell(x); |
6092 |
|
|
counterCells = rs; |
6093 |
|
|
init = true; |
6094 |
|
|
} |
6095 |
|
|
} finally { |
6096 |
|
|
cellsBusy = 0; |
6097 |
|
|
} |
6098 |
|
|
if (init) |
6099 |
|
|
break; |
6100 |
|
|
} |
6101 |
|
|
else if (U.compareAndSwapLong(this, BASECOUNT, v = baseCount, v + x)) |
6102 |
|
|
break; // Fall back on using base |
6103 |
|
|
} |
6104 |
|
|
hc.code = h; // Record index for next time |
6105 |
|
|
} |
6106 |
|
|
|
6107 |
dl |
1.52 |
// Unsafe mechanics |
6108 |
dl |
1.82 |
private static final sun.misc.Unsafe U; |
6109 |
|
|
private static final long SIZECTL; |
6110 |
|
|
private static final long TRANSFERINDEX; |
6111 |
|
|
private static final long TRANSFERORIGIN; |
6112 |
|
|
private static final long BASECOUNT; |
6113 |
dl |
1.102 |
private static final long CELLSBUSY; |
6114 |
dl |
1.82 |
private static final long CELLVALUE; |
6115 |
dl |
1.52 |
private static final long ABASE; |
6116 |
|
|
private static final int ASHIFT; |
6117 |
|
|
|
6118 |
|
|
static { |
6119 |
|
|
try { |
6120 |
dl |
1.82 |
U = getUnsafe(); |
6121 |
dl |
1.52 |
Class<?> k = ConcurrentHashMapV8.class; |
6122 |
dl |
1.82 |
SIZECTL = U.objectFieldOffset |
6123 |
dl |
1.52 |
(k.getDeclaredField("sizeCtl")); |
6124 |
dl |
1.82 |
TRANSFERINDEX = U.objectFieldOffset |
6125 |
|
|
(k.getDeclaredField("transferIndex")); |
6126 |
|
|
TRANSFERORIGIN = U.objectFieldOffset |
6127 |
|
|
(k.getDeclaredField("transferOrigin")); |
6128 |
|
|
BASECOUNT = U.objectFieldOffset |
6129 |
|
|
(k.getDeclaredField("baseCount")); |
6130 |
dl |
1.102 |
CELLSBUSY = U.objectFieldOffset |
6131 |
|
|
(k.getDeclaredField("cellsBusy")); |
6132 |
dl |
1.82 |
Class<?> ck = CounterCell.class; |
6133 |
|
|
CELLVALUE = U.objectFieldOffset |
6134 |
|
|
(ck.getDeclaredField("value")); |
6135 |
jsr166 |
1.101 |
Class<?> ak = Node[].class; |
6136 |
|
|
ABASE = U.arrayBaseOffset(ak); |
6137 |
|
|
int scale = U.arrayIndexScale(ak); |
6138 |
jsr166 |
1.89 |
if ((scale & (scale - 1)) != 0) |
6139 |
|
|
throw new Error("data type scale not a power of two"); |
6140 |
|
|
ASHIFT = 31 - Integer.numberOfLeadingZeros(scale); |
6141 |
dl |
1.52 |
} catch (Exception e) { |
6142 |
|
|
throw new Error(e); |
6143 |
|
|
} |
6144 |
|
|
} |
6145 |
|
|
|
6146 |
|
|
/** |
6147 |
|
|
* Returns a sun.misc.Unsafe. Suitable for use in a 3rd party package. |
6148 |
|
|
* Replace with a simple call to Unsafe.getUnsafe when integrating |
6149 |
|
|
* into a jdk. |
6150 |
|
|
* |
6151 |
|
|
* @return a sun.misc.Unsafe |
6152 |
|
|
*/ |
6153 |
|
|
private static sun.misc.Unsafe getUnsafe() { |
6154 |
|
|
try { |
6155 |
|
|
return sun.misc.Unsafe.getUnsafe(); |
6156 |
jsr166 |
1.87 |
} catch (SecurityException tryReflectionInstead) {} |
6157 |
|
|
try { |
6158 |
|
|
return java.security.AccessController.doPrivileged |
6159 |
|
|
(new java.security.PrivilegedExceptionAction<sun.misc.Unsafe>() { |
6160 |
|
|
public sun.misc.Unsafe run() throws Exception { |
6161 |
|
|
Class<sun.misc.Unsafe> k = sun.misc.Unsafe.class; |
6162 |
|
|
for (java.lang.reflect.Field f : k.getDeclaredFields()) { |
6163 |
|
|
f.setAccessible(true); |
6164 |
|
|
Object x = f.get(null); |
6165 |
|
|
if (k.isInstance(x)) |
6166 |
|
|
return k.cast(x); |
6167 |
|
|
} |
6168 |
|
|
throw new NoSuchFieldError("the Unsafe"); |
6169 |
|
|
}}); |
6170 |
|
|
} catch (java.security.PrivilegedActionException e) { |
6171 |
|
|
throw new RuntimeException("Could not initialize intrinsics", |
6172 |
|
|
e.getCause()); |
6173 |
dl |
1.52 |
} |
6174 |
|
|
} |
6175 |
dl |
1.1 |
} |