- java.lang.Object
-
- java.util.concurrent.ForkJoinTask<Void>
-
- java.util.concurrent.RecursiveAction
-
- All Implemented Interfaces:
Serializable
,Future<Void>
public abstract class RecursiveAction extends ForkJoinTask<Void>
A recursive resultlessForkJoinTask
. This class establishes conventions to parameterize resultless actions asVoid
ForkJoinTask
s. Becausenull
is the only valid value of typeVoid
, methods such asjoin
always returnnull
upon completion.Sample Usages. Here is a simple but complete ForkJoin sort that sorts a given
long[]
array:static class SortTask extends RecursiveAction { final long[] array; final int lo, hi; SortTask(long[] array, int lo, int hi) { this.array = array; this.lo = lo; this.hi = hi; } SortTask(long[] array) { this(array, 0, array.length); } protected void compute() { if (hi - lo < THRESHOLD) sortSequentially(lo, hi); else { int mid = (lo + hi) >>> 1; invokeAll(new SortTask(array, lo, mid), new SortTask(array, mid, hi)); merge(lo, mid, hi); } } // implementation details follow: static final int THRESHOLD = 1000; void sortSequentially(int lo, int hi) { Arrays.sort(array, lo, hi); } void merge(int lo, int mid, int hi) { long[] buf = Arrays.copyOfRange(array, lo, mid); for (int i = 0, j = lo, k = mid; i < buf.length; j++) array[j] = (k == hi || buf[i] < array[k]) ? buf[i++] : array[k++]; } }
anArray
by creatingnew SortTask(anArray)
and invoking it in a ForkJoinPool. As a more concrete simple example, the following task increments each element of an array:class IncrementTask extends RecursiveAction { final long[] array; final int lo, hi; IncrementTask(long[] array, int lo, int hi) { this.array = array; this.lo = lo; this.hi = hi; } protected void compute() { if (hi - lo < THRESHOLD) { for (int i = lo; i < hi; ++i) array[i]++; } else { int mid = (lo + hi) >>> 1; invokeAll(new IncrementTask(array, lo, mid), new IncrementTask(array, mid, hi)); } } }
The following example illustrates some refinements and idioms that may lead to better performance: RecursiveActions need not be fully recursive, so long as they maintain the basic divide-and-conquer approach. Here is a class that sums the squares of each element of a double array, by subdividing out only the right-hand-sides of repeated divisions by two, and keeping track of them with a chain of
next
references. It uses a dynamic threshold based on methodgetSurplusQueuedTaskCount
, but counterbalances potential excess partitioning by directly performing leaf actions on unstolen tasks rather than further subdividing.double sumOfSquares(ForkJoinPool pool, double[] array) { int n = array.length; Applyer a = new Applyer(array, 0, n, null); pool.invoke(a); return a.result; } class Applyer extends RecursiveAction { final double[] array; final int lo, hi; double result; Applyer next; // keeps track of right-hand-side tasks Applyer(double[] array, int lo, int hi, Applyer next) { this.array = array; this.lo = lo; this.hi = hi; this.next = next; } double atLeaf(int l, int h) { double sum = 0; for (int i = l; i < h; ++i) // perform leftmost base step sum += array[i] * array[i]; return sum; } protected void compute() { int l = lo; int h = hi; Applyer right = null; while (h - l > 1 && getSurplusQueuedTaskCount() <= 3) { int mid = (l + h) >>> 1; right = new Applyer(array, mid, h, right); right.fork(); h = mid; } double sum = atLeaf(l, h); while (right != null) { if (right.tryUnfork()) // directly calculate if not stolen sum += right.atLeaf(right.lo, right.hi); else { right.join(); sum += right.result; } right = right.next; } result = sum; } }
- Since:
- 1.7
- See Also:
- Serialized Form
-
-
Constructor Summary
Constructors Constructor Description RecursiveAction()
-
Method Summary
All Methods Instance Methods Abstract Methods Concrete Methods Modifier and Type Method Description protected abstract void
compute()
The main computation performed by this task.protected boolean
exec()
Implements execution conventions for RecursiveActions.Void
getRawResult()
Always returnsnull
.protected void
setRawResult(Void mustBeNull)
Requires null completion value.-
Methods declared in class java.util.concurrent.ForkJoinTask
adapt, adapt, adapt, cancel, compareAndSetForkJoinTaskTag, complete, completeExceptionally, fork, get, get, getException, getForkJoinTaskTag, getPool, getQueuedTaskCount, getSurplusQueuedTaskCount, helpQuiesce, inForkJoinPool, invoke, invokeAll, invokeAll, invokeAll, isCompletedAbnormally, isCompletedNormally, join, peekNextLocalTask, pollNextLocalTask, pollSubmission, pollTask, quietlyComplete, quietlyInvoke, quietlyJoin, reinitialize, setForkJoinTaskTag, tryUnfork
-
Methods declared in interface java.util.concurrent.Future
isCancelled, isDone
-
-
-
-
Method Detail
-
compute
protected abstract void compute()
The main computation performed by this task.
-
getRawResult
public final Void getRawResult()
Always returnsnull
.- Specified by:
getRawResult
in classForkJoinTask<Void>
- Returns:
null
always
-
setRawResult
protected final void setRawResult(Void mustBeNull)
Requires null completion value.- Specified by:
setRawResult
in classForkJoinTask<Void>
- Parameters:
mustBeNull
- the value
-
exec
protected final boolean exec()
Implements execution conventions for RecursiveActions.- Specified by:
exec
in classForkJoinTask<Void>
- Returns:
true
if this task is known to have completed normally
-
-