Difference between revisions of "MergeSort"
Line 117: | Line 117: | ||
=Testing Your Solution= | =Testing Your Solution= | ||
− | |||
{{TestSuite|_MergeSorterTestSuite|sort.merge.exercise}} | {{TestSuite|_MergeSorterTestSuite|sort.merge.exercise}} | ||
− | + | =Performance= | |
{{Performance|SortTiming|sort}} | {{Performance|SortTiming|sort}} | ||
− | |||
− | |||
− | |||
=Pledge, Acknowledgments, Citations= | =Pledge, Acknowledgments, Citations= | ||
{{Pledge|studio-merge-sort}} | {{Pledge|studio-merge-sort}} |
Revision as of 11:27, 7 February 2023
Contents
Motivation
Sorting is a problem that is well solved by divide and conquer algorithms. Merge sort is a elegant example which can be parallelized in a straight-forward manner.
Finally, parallelization of the combine step, while not trivial, is possible (and left as an optional fun exercise for those so inclined).
Background
In computer science, merge sort refers to a sorting algorithm which splits an array of data into continuously smaller halves until the arrays reach a size of 1, after which the elements are continuously compared and merged into a sorted array.
For more information on how this process works, visit the wikipedia page on merge sort.
Visualization
If you are unclear on how merge sort works, take a look at the visualgo explanation and visualization of merge sort.
The Core Questions
- What are the tasks?
- What is the data?
- Is the data mutable?
- If so, how is it shared?
Mistakes To Avoid
Warning: Be sure to calculate the midpoint correctly. |
Warning: When checking the base case, remember to account for [minInclusive, maxExclusive). It is all too easy to get an off by 1 error and stack overflow. |
Warning: When transitioning to sequential, make sure to NOT sort the entire array when you are only responsible for a range [min,max). |
Code to Use
Both the sequential and parallel merge sorts will be passed a Combiner. When you are done with the divide and conquer phases, invoke combiner.combineRange(data, min, mid, maxExclusive) to merge the two sorted sub-problem results.
Code to Implement
You will need to implement merge sort sequentially and in parallel, but you will need to do both implementations recursively. The kernel method should call itself using recursion, but each public mergesort method should only call its kernel once to do the work.
Sorter
class: | Sorter.java | |
methods: | sort | |
package: | sort.core | |
source folder: | student/src/main/java |
The Sorter<T> interface provides two methods: sort and sortRange. We will leave sortRange to the classes which implement Sorter.
sort
You will provide a default implementation of the sort method, so that all implementing classes do not have to.
method: default void sort(T[] data, Comparator<T> comparator)
(sequential implementation only)
You should simply invoke the sortRange method with the correct arguments.
SequentialCombiner
Merge sort's combine step leverages the fact that it can rely on the two sub-ranges are provided in sorted order. Use this fact to fill the provided temporary buffer with the sorted contents of the entire range [min, maxExclusive).
Performance note: in an effort to make this part of the assignment more appropriately approachable, a temporary buffer will be created, combined into, and copied back from. Merge sort can be built such that depths of the recursion alternate which buffer is read from and written to. The added complexity this performance improvement would incur is not deemed valuable from a pedagogical stand point, but it is worth noting.
(Provided) combineRange
The public method combineRange(data, comparator, min, mid, maxExclusive)
is provided. It creates a temporary buffer and passes it to combineRangeIntoBuffer(buffer, data, comparator, min, mid, maxExclusive)
which you will implement to fill the temporary buffer with the combined sorted contents. The contents of the temporary buffer is then copied back to the data array with System.arraycopy().
@Override public void combineRange(T[] data, Comparator<T> comparator, int min, int mid, int maxExclusive) { int rangeLength = maxExclusive - min; T[] buffer = ArrayUtils.createArray(componentType, rangeLength); combineRangeIntoBuffer(buffer, data, comparator, min, mid, maxExclusive); System.arraycopy(buffer, 0, data, min, maxExclusive - min); }
(Exercise) combineRangeIntoBuffer
class: | SequentialCombiner.java | |
methods: | combineRangeIntoBuffer | |
package: | sort.merge.exercise | |
source folder: | student/src/main/java |
method: private static <T> void combineRangeIntoBuffer(T[] buffer, T[] data, Comparator<T> comparator, int min, int mid, int maxExclusive)
(sequential implementation only)
Here you will implement the classic sequential merge combine outlined in the Background section. You will read from data
between min
and maxExclusive
and write to buffer
starting at 0.
SequentialMergeSorter
class: | SequentialMergeSorter.java | |
methods: | sortRange | |
package: | sort.merge.exercise | |
source folder: | student/src/main/java |
Implement the classic divide and conquer sequential algorithm here.
Warning:Be use to leverage the provided private final Combiner<T> combiner; field to perform the combine step. |
ParallelMergeSorter
class: | ParallelMergeSorter.java | |
methods: | sortRange | |
package: | sort.merge.exercise | |
source folder: | student/src/main/java |
Adapt your sequential algorithm to take advantage of what can be parallelized.
What can be in parallel?
What is dependent on the parallel tasks completing?
Warning:Leverage the provided private final IntPredicate isParallelDesired; field to test whether or not parallelism is warranted for the current range length. |
Warning:Fall back to the provided private final Sorter<T> sequentialSorter; field when the isParallelDesired predicate indicates that parallelism is not longer warranted. |
(Optional) Challenge Parallel Combiner
You can divide and conquer the combine step in merge sort. The work should remain while the critical path length can be cleanly improved from down to .
For details on how to complete this challenge, check out: MergeSort_Parallel_Combiner
Testing Your Solution
class: | _MergeSorterTestSuite.java | |
package: | sort.merge.exercise | |
source folder: | testing/src/test/java |
Performance
class: | SortTiming.java | |
package: | sort | |
source folder: | src/main/java |
Pledge, Acknowledgments, Citations
file: | studio-merge-sort-pledge-acknowledgments-citations.txt |
More info about the Honor Pledge