Difference between revisions of "Ranges"

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Since we will be utilizing this class throughout the semester in different studios and assignments, it is important that data is split up in a specific way. The tests should help make sure your solution is strictly adhering to the specification.
 
Since we will be utilizing this class throughout the semester in different studios and assignments, it is important that data is split up in a specific way. The tests should help make sure your solution is strictly adhering to the specification.
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=Background=
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==Iterable and Iterator==
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{{CollapsibleYouTube|DOM NodeList Iterable Demo|<youtube>4ycpqdJ4yb4</youtube>}}
  
 
=Mistakes To Avoid=
 
=Mistakes To Avoid=
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=== next() ===
 
=== next() ===
  
 
=== DOM NodeList Iterable Demo ===
 
<youtube>4ycpqdJ4yb4</youtube>
 
  
 
==class [https://www.cse.wustl.edu/~dennis.cosgrove/courses/cse231/current/apidocs/range/exercise/Ranges.html Ranges]==
 
==class [https://www.cse.wustl.edu/~dennis.cosgrove/courses/cse231/current/apidocs/range/exercise/Ranges.html Ranges]==

Revision as of 03:27, 10 February 2023

credit for this assignment: Finn Voichick and Dennis Cosgrove

Motivation

Coarsening, or n-way split as we tend to call it in this course, comes up a fair amount. In this studio, we will create a Range class and a slice utility method, that allows us to split up our data n-times (depending on what value we pass in) in a consistent organized fashion. This makes sure that each thread is balanced in the work that it does, minimizing the Critical Path Length.

Since we will be utilizing this class throughout the semester in different studios and assignments, it is important that data is split up in a specific way. The tests should help make sure your solution is strictly adhering to the specification.

Background

Iterable and Iterator

Video: DOM NodeList Iterable Demo  

Mistakes To Avoid

Attention niels epting.svg Warning: Do NOT Parallelize

This studio is about creating an easier way to split data so that it can be worked on in parallel. The splitting of the data is still done sequentially. That means at no point in this studio should you be using fork() or join().

Code to Implement

Attention niels epting.svg Warning: There is a Range.java and a Ranges.java. Implement Range.java first

class Range

class: Range.java Java.png
methods: constructor
min
maxExclusive
iterator
package: range.exercise
source folder: student/src/main/java

constructor

method: public Range(int min, int maxExclusive) Sequential.svg (sequential implementation only)

To support the required methods below we will need to hang onto the parameter values as instance variables (a.k.a. fields).

min

method: public int min() Sequential.svg (sequential implementation only)

maxExclusive

method: public int maxExclusive() Sequential.svg (sequential implementation only)

iterator

method: public Iterator<Integer> iterator() Sequential.svg (sequential implementation only)

class Range implements the Iterable<Integer> interface. As such, it must implement the iterator method. Use the class RangeIterator outlined in the next section to fulfill this method.

RangeIterator

class: RangeIterator.java Java.png
methods: constructor
hasNext
next
package: range.exercise
source folder: student/src/main/java

constructor and instance variables

hasNext()

next()

class Ranges

class: Ranges.java Java.png
methods: slice
package: range.exercise
source folder: student/src/main/java

slice

method: public static Range[] slice(int min, int maxExclusive, int numRanges) Sequential.svg (sequential implementation only)

Given a range [minInclusive, maxExclusive) and a number of slices to make, return an array of Ranges. Understanding what a Range is and how it is used is important when writing this solution.

The goal is to have each slice's range be the entire array when put together, with no overlap. Some examples are giving below. Working through more examples can be a helpful way of figuring out what code to write if you get stuck.

Circle-information.svg Tip: For any instance of Range, the minimum is inclusive and the maximum is exclusive. This means for two slices next to each other, range1.getMaxExclusive() is equal to range2.getMinInclusive().

Strict Specification

We are overly strict about the specification of how the data must be sliced up. This is to allow to accurately compare results intermediate results throughout the semester.

Example: array.length=8; numRanges=4

A A B B C C D D
Slice ID Min Inclusive Max Exclusive
0 0 2
1 2 4
2 4 6
3 6 8


Example: array.length=7; numRanges=4

Distribute the remainder 1 each to the lower end slices (the first few slices or the lower index slices).

A A B B C C D
Slice ID Min Inclusive Max Exclusive
0 0 2
1 2 4
2 4 6
3 6 7
Attention niels epting.svg Warning:Do NOT slice up the data by giving all of the remainder to one slice

A |B |C |D |D |D |D

Giving all the remainder to one range does not most effectively balance the workload!

Testing Your Solution

Correctness

class: __RangeExerciseTestSuite.java Junit.png
package: range.example
source folder: testing/src/test/java

Pledge, Acknowledgments, Citations

file: exercise-ranges-pledge-acknowledgments-citations.txt

More info about the Honor Pledge