程序代写代做代考 compiler go chain Java CSE 216 – Homework II

CSE 216 – Homework II
Instructor: Dr. Ritwik Banerjee
NOTE: This homework document consists of 4 pages. Carefully read the entire document before you start coding. This homework is designed in a way where the best implementation requires you to start with the big picture and only then begin to implement the details. If you start with implementing specific parts right away, you may end up in a situation where the complete codebase in the end does not work as intended. Development Environment: It is highly recommended that you use IntelliJ IDEA. You can avail it from https://www.jetbrains.com/idea/ by either downloading the free community edition, or create a student account and get access to the Ultimate edition for free for one year (after that, you can renew it if you want). You can, if you really want, use a different IDE, but if things go wrong there, you may be on your own. Programming Language: Starting with this homework, and for the remainder of this course, all Java code must be JDK 1.8 compliant. That is, you may have a higher version of Java installed, but the “language level” must be set to Java 8. This can be easily done in IntelliJ IDEA by going to “Project Structure” and selecting the appropriate “Project language level”. This is a very important requirement, since Java 9, 10,
and 11 all have additional language features that will not compile with a Java 8 compiler.
1 Parametric and subtype polymorphism [50 points]
In this first section, an incomplete codebase is given to you with many method bodies simply marked with a TODO tag. Your task is to follow the documentation provided in these methods and complete the codebase. A few things to keep in mind during this code completion:
– You will probably have to read up on two interfaces used in sorting: Comparable and Comparator. The assign- ment itself will illustrate how they are used, and why both are needed.
– Any fields you need/want to add to the classes must be private, with the corresponding getter() and setter() methods added by you. Note that setter methods only make sense for attributes that are modifiable.
– You may, in general, add more methods to the classes if you feel the need. But do not modify/remove any meth-
ods or fields already implemented in the codebase. Also
do not modify any interface.
Figure 1: The expected vertex-ordering for Cuboid. Note that v0 through v3 form one face in counterlockwise order and v4 through v7 form the exact opposite face, where v4 is
the corner directly connected to
v3 .
1. Complete the parts marked by “TODO” in the codebase.
(a) Circle#setPosition(List)
(b) Cuboid#volume() and Cuboid#center()
(c) Add the method missing from Cuboid, defined in an interface it implements. (d) Quadrilateral#getSideLengths()
(e) Quadrilateral#setPosition(List)
(f) Rectangle#center(), Rectangle#isMember(List), and Rectangle#area()
(2) (4) (4) (3) (3) (6)
1

CSE 216 (g)
(h) (i) (j) (k)
(l)
Homework II Submission Deadline: October 25, 2020
Resolve the issue with the constructor in Square. Note that you are not allowed to modify the (2) constructor itself.
Square#snap() (3)
Complete the ThreeDPoint class as marked by the two “TODO” comments. (3)
Complete the TwoDPoint class as marked by the two “TODO” comments. (3)
Carefully consider the codes of Cuboid and Circle, and create a class Sphere that implements the (5) ThreeDShape interface.
Complete the code in the class Ordering.java. The main(String[]) method in this class serves (6) as a test code of sorts. If, after following the instructions in the comments, your code does not
compile or run properly, then it indicates a definite error in your implementation(s)1.
2. Create two static methods as follows:
(a) Cuboid#random(), which will generate a cuboid with random vertices. Please note that in spite of (3) that randomness, the object must actually be a geometric cuboid shape.
(b) Sphere#random(), which will generate a sphere with a random center and radius. (2)
2 Functional Programming: Streams [20 points]
Example 1: A Java function implemented as a single method chain.
Each function implementation must be done using a single method chain (as shown in example 1 above), and all the functions must be implemented in a file named StreamUtils.java.
1. Capitalized strings. (5)
/**
* @param strings: the input collection of Strings.
* @return a collection of those Strings in the input collection
that start with a capital letter.
public static Collection capitalized(Collection strings);
2. The longest string. (5)
/**
* Find and return the longest String in a given collection of Strings.
*
* @param strings: the given collection of Strings.
* @param from_start: a boolean flag that decides how ties are broken.
return sequence.stream()
.intermediate_operation_1(…)
.intermediate_operation_2(…)
.intermediate_operation_3(…).terminal_operation();
*/
*
* @return
*
*/
If true, then the element encountered earlier in
the iteration is returned, otherwise the later element is returned.
the longest String in the given collection,
where ties are broken based on from_start.
public static String longest(Collection strings, boolean from_start);
3. The least element. In this function, the single method chain can return a java.util.Optional. (5) So you must write additional code to convert it to an object of type T (handling any potential exceptions).
1Keep in mind, though, that a complete suite of tests is not provided here. You are, of course, free to add your own tests to check whether or not your completed code is running as expected.
2

CSE 216 Homework II Submission Deadline: October 25, 2020
/**
* Find and return the least element from a collection of given elements that are comparable.
*
* @param items: the given collection of elements
* @param from_start: a boolean flag that decides how ties are broken.
*
*
* @param :
* @return
*
*/
If true, the element encountered earlier in the
iteration is returned, otherwise the later element is returned.
the type parameter of the collection (i.e., the items are all of type T).
the least element in items, where ties are
broken based on from_start.
public static > T least(Collection items, boolean from_start);
4. Flatten a map. (5)
/**
* Flattens a map to a stream of Strings, where each element in the list
* is formatted as “key -> value”.
*
* @param aMap the specified input map.
* @param the type parameter of keys in aMap.
* @param the type parameter of values in aMap.
* @return the flattened list representation of aMap.
*/
public static List flatten(Map aMap)
3 Functional Programming: Higher-order functions [30 points]
Code for this section must be written in a file named HigherOrderUtils.java. You may also have to consult some of the official Java documentation and/or the reference text on Functional Programming in Java.
1. First, write a nested interface in HigherOrderUtils called NamedBiFunction that extends the interface (4) java.util.Function.BiFunction. The interface should just have one method declaration: String
name();, i.e., a class implementing this interface must provide a “name” for every instance of that class.
2. Next, create public static NamedBiFunction instances as follows: (8)
(a) add, with the name “add”, to perform addition of two Doubles.
(b) subtract, with the name “diff”, to perform subtraction of one Double from another.
(c) multiply, with the name “mult”, to perform multiplication of two Doubles.
(d) divide, with the name “div”, to divide one Double by another. This operation should throw a
java.lang.ArithmeticException if there is a division by zero being attempted.
3. Write a function called zip as follows: (9)
/**
* Applies a given list of bifunctions — functions that take two arguments of a certain type and produce
* a single instance of that type — to a list of arguments of that type. The functions are applied
* iteratively, and the result of each function is stored in the list iteratively as well, to be
* used by the next bifunction in the next iteration. E.g.,
* List args = Arrays.asList(1d, 1d, 3d, 0d, 4d), and
* List> bfs = [add, multiply, add, divide],
* zip(args, bfs) will proceed iteratively as follows:
* – index 0: the result of add(1,1) is stored in args[1] to yield args = [1,2,3,0,4]
* – index 1: the result of multiply(2,3) is stored in args[2] to yield args = [1,2,6,0,4]
* – index 2: the result of add(6,0) is stored in args[3] to yield args = [1,2,6,6,4]
* – index 3: the result of divide(6,4) is stored in args[4] to yield args = [1,2,6,6,1]
*
* @param args: the arguments over which bifunctions will be applied.
* @param bifunctions: the list of bifunctions that will be applied on args.
* @param :
* @return
*
*/
the type parameter of the arguments (e.g., Integer, Double)
the item in the last index of args, which has the final
result of all the bifunctions being applied in sequence.
public static T zip(List args, List> bifunctions);
3

CSE 216 Homework II Submission Deadline: October 25, 2020
4. Based on the above zip function, think about what a function composition would look like. Write a (9) static inner class called FunctionComposition that is parameterized by three type parameters. This
class should have no methods, and no constructor. It should only have a single BiFunction called composition, which takes in two functions and provides their composition as the output function.
Function composition should be consistent with the types – if there is a function f: char -> String, and another function g: String -> int, the output of composition should be a function h: char -> int. For example, if f concatenates a char some number of times (say, ‘b’ yields “bb”, ‘c’ yields “ccc”, ‘d’ yields “dddd”, etc.), and g converts a string to its length, then composition(f, g) should output a function that maps ‘z’ to 26.
NOTES:
􏰃 Late submissions or uncompilable code will not be graded.
􏰃 Please remember to verify what you are submitting. Make sure you are, indeed, submitting what you
think you are submitting!
􏰃 What to submit? A single .zip file comprising (i) the completed codebase, (ii) StreamUtils.java, and
(iii) HigherOrderUtils.java. This assignment will be graded by a script, so be absolutely sure that the submission follows this structure.
Submission Deadline: October 25, 2020, 11:59 pm
4