Difference between revisions of "Threads and Executors"

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This assignment has been updated: [[Thread_and_Executor_Service_Assignment|Thread and ExecutorService]]
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<!--
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credit for this assignment: [[User:Finn|Finn Voichick]] and [[User:cosgroved|Dennis Cosgrove]]
 
=Motivation=
 
=Motivation=
The [http://x10-lang.org/ X10 family of programming languages], including [https://wiki.rice.edu/confluence/display/HABANERO/Habanero+Extreme+Scale+Software+Research+Project Habanero] and our own modest [https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/edu/wustl/cse231s/v5/V5.html V5], provide a less cumbersome way to write parallel programs with [https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/edu/wustl/cse231s/v5/V5.html#async-edu.wustl.cse231s.v5.api.CheckedRunnable- async] and [https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/edu/wustl/cse231s/v5/V5.html#finish-edu.wustl.cse231s.v5.api.CheckedRunnable- finish].
+
The [http://x10-lang.org/ X10 family of programming languages], including [https://wiki.rice.edu/confluence/display/HABANERO/Habanero+Extreme+Scale+Software+Research+Project Habanero] and our own modest [https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/edu/wustl/cse231s/v5/V5.html V5], provide a less cumbersome way to write parallel programs with [https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/edu/wustl/cse231s/v5/V5.html#async-edu.wustl.cse231s.v5.api.CheckedRunnable- async] and [https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/edu/wustl/cse231s/v5/V5.html#finish-edu.wustl.cse231s.v5.api.CheckedRunnable- finish].
  
 
Finish has particularly nice semantics: keeping track of and joining all of its descendant tasks.   
 
Finish has particularly nice semantics: keeping track of and joining all of its descendant tasks.   
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=Code to Implement=
 
=Code to Implement=
 
==(Optional But Recommended) Join All Warm Up==
 
==(Optional But Recommended) Join All Warm Up==
 +
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkedQueue] is a thread safe data structure.  Multiple threads can add and remove from it without fear.  The order they will be in might not be deterministic, but it won't lose anybody.  We will end up using a ConcurrentLinkedQueue to track all of the spawned Futures in the [[#XQuicksort]] section of this lab.
 +
 +
Sadly, [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkedQueue's documentation] reports that:
 +
 +
: ''"Iterators are weakly consistent, returning elements reflecting the state of the queue at some point at or since the creation of the iterator."''
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 +
This means that if all of the items aren't in the queue when you start iterating through them, then you are not guaranteed to get updated when new items get added.
 +
 +
Therefore, using the standard iterating for loop from <code>ThreadsRightNow</code> will NOT work for <code>ThreadsEventually</code>:
 +
 +
<nowiki>/* package-private */ static int joinAllInQueueViaIteration(Queue<Thread> queue) throws InterruptedException {
 +
int count = 0;
 +
for (Thread thread : queue) {
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thread.join();
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count++;
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}
 +
return count;
 +
}</nowiki>
  
source: https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html
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Think about how you can make sure that all of threads are joined.
 +
<spoiler show="spoiler" hide="spoiler">Drain the queue by repeatedly polling until it is empty. Be sure to actually join the threads.</spoiler>
  
''"Iterators are weakly consistent, returning elements reflecting the state of the queue at some point at or since the creation of the iterator."''
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{{CodeToImplement|ThreadsEventually|joinAllInQueueViaPoll|tnx.warmup.joinall}}
  
JoinAllTestSuite
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{{Sequential|private static int joinAllInQueueViaPoll(Queue<Thread> queue)}}
  
ThreadsEventually joinAllInQueueViaPoll
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NOTE: this method should return the number of threads joined.
  
 
Completing this optional warm up will help you when you implement [[#XQuicksort]].
 
Completing this optional warm up will help you when you implement [[#XQuicksort]].
 +
 +
===Testing Your Solution===
 +
====Correctness====
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{{TestSuite|JoinAllTestSuite|tnx.warmup.joinall}}
  
 
==Threads==
 
==Threads==
 
While we strive to make CSE 231 generally applicable across libraries and languages, it would be madness to have a parallel programming class in Java and not have students know how to create a Thread, start it, and join it.  In this section of the lab, you will do just that.
 
While we strive to make CSE 231 generally applicable across libraries and languages, it would be madness to have a parallel programming class in Java and not have students know how to create a Thread, start it, and join it.  In this section of the lab, you will do just that.
  
'''Video:'''[https://wustl.box.com/s/pngsojhj8291qj8q78ypmzl0jd1l69sw Thread Start and Join]
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<youtube>P8z7dFIdcmM</youtube> box link: [https://wustl.box.com/s/pngsojhj8291qj8q78ypmzl0jd1l69sw Thread Start and Join]
 
===Code To Use===
 
===Code To Use===
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ThreadFactory.html interface ThreadFactory]
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ThreadFactory.html interface ThreadFactory]
Line 35: Line 61:
 
:[https://docs.oracle.com/javase/8/docs/api/java/lang/Thread.html#start-- start]
 
:[https://docs.oracle.com/javase/8/docs/api/java/lang/Thread.html#start-- start]
 
:[https://docs.oracle.com/javase/8/docs/api/java/lang/Thread.html#start-- join]
 
:[https://docs.oracle.com/javase/8/docs/api/java/lang/Thread.html#start-- join]
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 +
As always, the [[Reference_Page#Threads|wiki's reference page]] can be of help.
  
 
===SimpleThreadFactory===
 
===SimpleThreadFactory===
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==Executors==
 
==Executors==
'''VIDEO:''' [https://wustl.box.com/s/2pqv6vsbirt6zi4304ycrh7jfgkb0dhi Executor submit and Future get]
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<youtube>8qh9LMhvNXI</youtube>
 
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<youtube>tuAkLb99sLE</youtube>
'''VIDEO:''' [https://wustl.box.com/s/17q7xupx1tagdnnfg057teme4lbq4w6r Executor invokeAll]
 
  
 
===Code To Use===
 
===Code To Use===
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html interface ExecutorService]
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html interface ExecutorService]
:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#submit-java.util.concurrent.Callable- submit]
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:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#submit-java.util.concurrent.Callable- submit(task)]
:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#invokeAll-java.util.Collection- invokeAll]
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:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#invokeAll-java.util.Collection- invokeAll(tasks)]
 +
 
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html interface Future]
 
[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html interface Future]
:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html#get-- get]
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:[https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html#get-- get()]
<!--
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 +
[http://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/count/assignment/NucleobaseCounting.html NucleobaseCounting]
 +
: [http://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/count/assignment/NucleobaseCounting.html#countRangeSequential-byte:A-edu.wustl.cse231s.bioinformatics.Nucleobase-int-int- countRangeSequential(chromosome,targetNucleobase,min,maxExclusive)]
 +
 
 +
[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/slice/studio/Slices.html Slices]
 +
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/slice/studio/Slices.html#createNSlices-byte:A-int- <nowiki>createNSlices(data, numSlices)</nowiki>].
 +
 
 +
 
 +
As always, the [[Reference_Page#Executors|wiki's reference page]] can be of help.
  
 
===Mistake To Avoid: Do NOT call shutdown===
 
===Mistake To Avoid: Do NOT call shutdown===
 
Each method you write will be passed an executor.  You need not (and should NOT) invoke [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#shutdown-- shutdown()].  That is the responsibility of whoever created the executor.  For example, a JUnit test would do this if it was appropriate (i.e. it created an executor and was not using the [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ForkJoinPool.html#commonPool-- common pool]).
 
Each method you write will be passed an executor.  You need not (and should NOT) invoke [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#shutdown-- shutdown()].  That is the responsibility of whoever created the executor.  For example, a JUnit test would do this if it was appropriate (i.e. it created an executor and was not using the [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ForkJoinPool.html#commonPool-- common pool]).
-->
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===XNucleobaseCount===
 
===XNucleobaseCount===
 
This part of the assignment should be very familiar as it is to a large degree implementing the [[Nucleobase_Counting|Nucleobase Counting assignment]] with Executors instead of Habanero.  It also adds a divide and conquer implementation of nucleobase counting.  
 
This part of the assignment should be very familiar as it is to a large degree implementing the [[Nucleobase_Counting|Nucleobase Counting assignment]] with Executors instead of Habanero.  It also adds a divide and conquer implementation of nucleobase counting.  
 
{{CodeToImplement|XNucleobaseCount|countLowerUpperSplit<br>countNWaySplit<br>countDivideAndConquer<br>countDivideAndConquerKernel|tnx.lab.executor}}
 
{{CodeToImplement|XNucleobaseCount|countLowerUpperSplit<br>countNWaySplit<br>countDivideAndConquer<br>countDivideAndConquerKernel|tnx.lab.executor}}
  
{{Tip|Use [http://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/count/assignment/NucleobaseCounting.html#countRangeSequential-byte:A-edu.wustl.cse231s.bioinformatics.Nucleobase-int-int- countRangeSequential()] from [[Nucleobase_Counting]]}}
+
{{Tip|Use [https://www.cse.wustl.edu/~dennis.cosgrove/courses/cse231/current/apidocs/count/lab/NucleobaseCounting.html#countRangeSequential(byte%5B%5D,edu.wustl.cse231s.bioinformatics.Nucleobase,int,int) countRangeSequential()] from [[Nucleobase_Counting]]}}
 
====lower upper split====
 
====lower upper split====
 
{{Parallel|int countLowerUpperSplit(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase)}}
 
{{Parallel|int countLowerUpperSplit(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase)}}
 +
 +
NOTE: the tests will enforce that you use [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#submit-java.util.concurrent.Callable- submit] and [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html#get-- get].
 +
 
====n-way split====
 
====n-way split====
 
{{Parallel|int countNWaySplit(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase, int numTasks)}}
 
{{Parallel|int countNWaySplit(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase, int numTasks)}}
  
Please feel free to use the provided [https://www.cse.wustl.edu/~cosgroved/courses/cse231/f17/apidocs/edu/wustl/cse231s/slices/SliceUtils.html#createNSlices-byte:A-int- SliceUtils] [https://www.cse.wustl.edu/~cosgroved/courses/cse231/f17/apidocs/edu/wustl/cse231s/slices/SliceUtils.html#createNSlices-byte:A-int- <nowiki>createNSlices(byte[] data, int numSlices)</nowiki>].  Then use the [https://docs.oracle.com/javase/1.5.0/docs/guide/language/foreach.html Java for each loop] to iterate over the slices to create your tasks.
+
Please feel free to use your own [https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/slice/studio/Slices.html Slices] [https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/slice/studio/Slices.html#createNSlices-byte:A-int- <nowiki>createNSlices(byte[] data, int numSlices)</nowiki>].  Then use the [https://docs.oracle.com/javase/1.5.0/docs/guide/language/foreach.html Java for each loop] to iterate over the slices to create your tasks.
 +
 
 +
NOTE: the tests will enforce that you use [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#invokeAll-java.util.Collection- invokeAll].
  
 
====divide-and-conquer====
 
====divide-and-conquer====
Line 94: Line 135:
  
 
{{Parallel|int countDivideAndConquerKernel(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase, int min, int maxExclusive, int threshold)}}
 
{{Parallel|int countDivideAndConquerKernel(ExecutorService executor, byte[] chromosome, Nucleobase nucleobase, int min, int maxExclusive, int threshold)}}
 +
 +
NOTE: the tests will enforce that you use [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#submit-java.util.concurrent.Callable- submit] and [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/Future.html#get-- get].
 +
  
 
NOTE: When you get down below the threshold and convert from parallel to sequential execution, do NOT feel compelled to build a sequential divide and conquer.  Just invoke countRangeSequential on the remaining range.  It is not like divide and conquer gives you a performance benefit in counting like it would for sorting.
 
NOTE: When you get down below the threshold and convert from parallel to sequential execution, do NOT feel compelled to build a sequential divide and conquer.  Just invoke countRangeSequential on the remaining range.  It is not like divide and conquer gives you a performance benefit in counting like it would for sorting.
  
 
===XQuicksort===
 
===XQuicksort===
{{CodeToImplement|XQuicksort|sequentialQuicksort<br>sequentialQuicksortKernel<br>parallelQuicksort<br>parallelQuicksortKernel|tnx.lab.executor}}
 
 
 
Quicksort is an oldie but a goodie.  First developed in 1959 and [https://dl.acm.org/citation.cfm?doid=366622.366644 published in 1961] it is still the go to sorting algorithm today.  The JDK8 implementation of [https://docs.oracle.com/javase/8/docs/api/java/util/Arrays.html#sort-int:A- Arrays.sort(array)] is a DualPivotQuicksort.
 
Quicksort is an oldie but a goodie.  First developed in 1959 and [https://dl.acm.org/citation.cfm?doid=366622.366644 published in 1961] it is still the go to sorting algorithm today.  The JDK8 implementation of [https://docs.oracle.com/javase/8/docs/api/java/util/Arrays.html#sort-int:A- Arrays.sort(array)] is a DualPivotQuicksort.
  
Line 107: Line 149:
  
 
{{Warning| [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkQueue]'s iterators are weakly consistent.  Do the [[#.28Optional_But_Recommended.29_Join_All_Warm_Up | Join All Warm Up]] to gain experience with handling this issue. }}
 
{{Warning| [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkQueue]'s iterators are weakly consistent.  Do the [[#.28Optional_But_Recommended.29_Join_All_Warm_Up | Join All Warm Up]] to gain experience with handling this issue. }}
 +
 +
<youtube>jP2998MvX9o</youtube>
  
 
<youtube>iqnvIeIhGPw</youtube> [https://edge.edx.org/courses/RiceX/COMP322/1T2014R/courseware/a900dd0655384de3b5ef01e508ea09d7/be41f5f2b11a4445aa4be174e94f1717/16 RiceX Lecture on Quicksort]
 
<youtube>iqnvIeIhGPw</youtube> [https://edge.edx.org/courses/RiceX/COMP322/1T2014R/courseware/a900dd0655384de3b5ef01e508ea09d7/be41f5f2b11a4445aa4be174e94f1717/16 RiceX Lecture on Quicksort]
Line 114: Line 158:
 
{{Warning|Unlike in Sarkar's and McDowell’s videos which use inclusive maximums, CSE 231 consistently uses exclusive maximums to avoid having to subtract 1 all of the time.}}
 
{{Warning|Unlike in Sarkar's and McDowell’s videos which use inclusive maximums, CSE 231 consistently uses exclusive maximums to avoid having to subtract 1 all of the time.}}
  
 +
====Code To Use====
 +
[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/sort/core/quick/Partitioner.html interface Partitioner]
 +
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/sort/core/quick/Partitioner.html#partitionRange-int:A-int-int- partitionRange(data,min,maxExclusive)]
 +
[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/sort/core/quick/PivotLocation.html class PivotLocation]
 +
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/sort/core/quick/PivotLocation.html#getLeftSidesUpperExclusive-- getLeftSidesUpperExclusive()]
 +
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/current/apidocs/sort/core/quick/PivotLocation.html#getRightSidesLowerInclusive-- getRightSidesLowerInclusive()]
 +
 +
Note: Investigate SequentialPartitioner.
 +
 +
====XSequentialQuicksorter====
 +
{{CodeToImplement|XSequentialQuicksorter|sortRange|tnx.lab.executor}}
 +
 +
{{Sequential|public void sortRange(T[] data, Comparator<T> comparator, int min, int maxExclusive)}}
  
====Code To Use====
+
{{Warning|Do NOT implement your own partition. Call Partitioner partitionRange method. It will do this work for you.}}
[https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/sort/core/quick/Partitioner.html interface Partitioner]
+
 
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/sort/core/quick/Partitioner.html#partitionRange-int:A-int-int- partitionRange(data,min,maxExclusive)]
+
{{Warning|Do NOT invoke partitionRange twice. Invoke partitionRange once and catch the return value in a variable. Then use the two methods on the single instance of PivotLocation. }}
[https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/sort/core/quick/PivotLocation.html class PivotLocation]
+
 
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/sort/core/quick/PivotLocation.html#getLeftSidesUpperExclusive-- getLeftSidesUpperExclusive()]
+
====XParallelQuicksorter====
:[https://www.cse.wustl.edu/~cosgroved/courses/cse231/s18/apidocs/sort/core/quick/PivotLocation.html#getRightSidesLowerInclusive-- getRightSidesLowerInclusive()]
+
{{CodeToImplement|XParallelQuicksorter|kernel<br/>sortRange|tnx.lab.executor}}
  
====sequential====
+
{{Parallel|private void kernel(Queue<Future<?>> futures, T[] data, Comparator<T> comparator, int min, int maxExclusive)}}
  
<!--
+
{{Tip | Be sure to <code>test</code> the <code>isParallelPredicate</code> to determine if the current range length is worthy of parallel processing or if you should fall back to the <code>sequentialSorter</code>. }}
The provided sequentialQuicksort method hopes to get you on the right track.
 
<nowiki>public static void sequentialQuicksort(int[] array) {
 
sequentialQuicksortKernel(array, 0, array.length);
 
}</nowiki>
 
-->
 
  
{{Sequential|void sequentialQuicksort(int[] data, Partitioner partitioner)}}
+
{{Sequential|public void sortRange(T[] data, Comparator<T> comparator, int min, int maxExclusive)}}
  
{{Sequential|void sequentialQuicksortKernel(int[] data, int min, int maxExclusive, Partitioner partitioner)}}
+
{{Tip | Make sure to use a thread safe data structure like [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkedQueue] and NOT an unsafe data structure like [https://docs.oracle.com/javase/8/docs/api/java/util/LinkedList.html LinkedList]. }}
  
====parallel====
+
{{Tip | <code>return null;</code> from your lambdas to invoke the [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html#submit-java.util.concurrent.Callable- overloaded Callable version of submit(task)] to deal with the checked exceptions. }}
{{Parallel|void parallelQuicksort(ExecutorService executor, int[] data, int threshold, Partitioner partitioner)}}
 
  
Make sure to use a thread safe data structure like [https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ConcurrentLinkedQueue.html ConcurrentLinkedQueue] and NOT an unsafe data structure like [https://docs.oracle.com/javase/8/docs/api/java/util/LinkedList.html LinkedList].
+
{{Warning|Do NOT implement your own partition. Call Partitioner partitionRange method. It will do this work for you.}}
  
{{Parallel|void parallelQuicksortKernel(ExecutorService executor, int[] data, int min, int maxExclusive, Queue<Future<?>> futures, int threshold, Partitioner partitioner)}}
+
{{Warning|Do NOT invoke partitionRange twice.  Invoke partitionRange once and catch the return value in a variable.  Then use the two methods on the single instance of PivotLocation. }}
  
 
==(Optional) Parallel Partition Challenge==
 
==(Optional) Parallel Partition Challenge==
[http://www.classes.cec.wustl.edu/~cse341/web/handouts/lecture07.pdf the partitioning step can also be done in parallel with scan].
+
The partitioning step can also be done in [http://www.classes.cec.wustl.edu/~cse341/web/handouts/lecture07.pdf parallel with scan]. While not particularly practical, it can get the CPL down to <math>\mathcal{O}(\lg^k{}n)</math>.
 
 
{{CodeToImplement|ParallelPartitioner|partitionRange|sort.fun.quick}}
 
  
{{Parallel|PivotLocation partitionRange(int[] data, int min, int maxExclusive)}}
+
For details on how to complete this challenge, check out: [[Quicksort_Parallel_Partitioner]]
  
 
=Testing Your Solution=
 
=Testing Your Solution=
Line 158: Line 207:
 
{{TestSuite|NucleobaseExecutorTestSuite|tnx.lab.executor}}
 
{{TestSuite|NucleobaseExecutorTestSuite|tnx.lab.executor}}
 
{{TestSuite|QuicksortExecutorTestSuite|tnx.lab.executor}}
 
{{TestSuite|QuicksortExecutorTestSuite|tnx.lab.executor}}
 +
====Less Time Consuming Suite====
 +
{{TestSuite|QuicksortExecutorNonWeaklyConsistentIteratorTestSuite|tnx.lab.executor}}
  
 
==Performance==
 
==Performance==
Line 189: Line 240:
  
 
=Pledge, Acknowledgments, Citations=
 
=Pledge, Acknowledgments, Citations=
As always, fill out the Pledge, Acknowledgments, and Citations file: <code>lab3-pledge-acknowledgments-citations.txt</code>
+
{{Pledge|lab-threads-and-executors}}
 +
-->

Latest revision as of 19:40, 22 February 2022

This assignment has been updated: Thread and ExecutorService