Lab 4: Linked Lists
The purpose of this week’s lab is to give you some hands-on experience writing code that manipulates a linked structure. Your task is to complete the Laboratory Assignment from Section 9.10 of your text (Bailey), entitled Lists with Dummy Nodes (pp. 215—217). You will start with code that already works: a class called LinkedList
that extends the structure5
class DoublyLinkedList
. The goal is to produce a new class that has the same interface as the old class, but with a simpler implementation. To achieve this, you will add two “dummy” nodes to your LinkedList
.
The Laboratory Assignment in Section 9.10 walks you through the refactoring process. You will have the best experience if you follow the instructions in that description carefully!
PRE-LAB: Step 1
Before lab, please do the following:
- Read Chapter 9 up to and including 9.5 Implementation: Doubly Linked Lists, and bring your questions to lab.
- Study the code in the
LinkedList.java
file before coming to lab, and think carefully about how you might modify the various methods as described in the assignment. A copy of the file will also be provided in your starter repository.
Lab Assignment
- Complete Laboratory Assignment 9.10, which begins on p. 215 of Bailey. The starter file
LinkedList.java
will be included in your team’s private GitLab repository in addition to a file,LinkedListTests.java
, that includes tests. The tests are not exhaustive, so please add additional tests as you consider the various edge cases. - In the comment block for each method in your
LinkedList
class, provide the running time (in Big-O notation) for each method, along with a brief justification.
Style
Requirement: checkstyle
This week, we are expanding checkstyle
to encourage you to write modular
and reusable code.
Rule: Don’t Repeat Yourself (DRY)
As a programmer, you should never type the same code over and over again. That would be a waste of your time. The ability to copy/paste useful code makes this tempting, but it is still very bad practice! When you copy code, you copy errors. If you ever fix those errors, you have to remember to fix them in every location. This “fixing” rarely happens. Trust us. We’ve been there.
So what should you do instead? You should write a helper method! Whenever you find yourself writing the same code more than once (it could be a common loop, searching a data structure, computing an equation) you should refactor that code into a method. Then you can call that method many times, but only ever have to fix bugs in one place.
Similarly, if you find yourselves writing a function that is very long, that is problematic. The long function can probably be broken into smaller parts that can then be composed to solve a larger problem. Bonus: you can now reuse those parts to solve other problems.
Breaking long functions into byte-size chunks also has the benefit of making your code easier to read and debug: by isolating functionality inside independent units, you can convince yourself that each of those units is correct in isolation, and then you can more easily convince yourself that the larger problem is correct.
What checkstyle looks for
Since we cannot easily check for copy/pasted code, we will use checkstyle to encourage concise methods.
The checkstyle
tool will report an [ERROR]
if your program has a
method that is more than 40 lines long
(excluding whitespace and single-line comments).
This new rule is in addition to previous style requirements.
In total, checkstyle will enforce the following guidelines:
- All class variables that are not
final
must be declaredprivate
orprotected
(i.e., nopublic
member variables unless they are constants). - All
public
methods must include a “Javadoc” comment (starts with/**
and ends with*/
; it should include descriptions of the function, the arguments, and any pre/post conditions). - No method should be longer than 40 lines (exluding whitespace and single-line comments).
To run checkstyle
, type the following command at the terminal:
$ ./checkstyle
The ./
is peculiar to Unix: it tells the terminal to look for the
checkstyle
program in the current directory.
This command runs checkstyle
on every Java program in your directory.
To run checkstyle
on a specific Java file, type:
$ ./checkstyle SomeFile.java
Requirement: javac
In addition to checkstyle
, we will continue to enforce
proper use of Java generics.
- Compiling your code with
javac
must not produce the following message:Note: YourProgram.java uses unchecked or unsafe operations. Note: Recompile with -Xlint:unchecked for details.
This message tells you how to get more information. Recompile your program as follows (replace with the appropriate file name):
$ javac -Xlint:unchecked YourProgram.java
The output will give you details about the issue.
To fix this problem, make sure that you specify type parameters for every generic class, both when declaring the variable’s type and when instantiating an object.
For example, to create a Vector
that stores Integer
objects, one would type:
Vector<Integer> intVec = new Vector<Integer>();
Lab Deliverables
By the start of lab, you should see a new private repository called lab04-dummylists
in your GitLab account.
For this lab, please submit the following:
lab04-dummylists/
README.md
LinkedList.java
TestLinkedList.java
The LinkedList.java
file contains starter code, and you should write all of your functions inside that file. The TestLinkedList.java
file contains a convenient main
method pre-populated with a variety of helpful tests that should help you get started.
As with all labs, you will be graded on design, documentation, style, and correctness. Be sure to document your program appropriately: include pre/post conditions and assertions where appropriate. We will also be looking at how well you organize your code. Whenever you see yourself duplicating functionality, consider moving that code to a helper method. There are several opportunities in this lab to simplify your code by using helper methods.
Submitting Your Lab
As you complete portions of this lab, you should commit
your changes and push
them. Commit early and often. When the deadline arrives, we will retrieve the latest version of your code. If you are confident that you are done, please use the phrase "Lab Submission"
as the commit message for your final commit. If you later decide that you have more edits to make, it is OK. We will look at the latest commit before the deadline.
- Be sure to push your changes to GitLab.
- Verify your changes on GitLab. Navigate in your web browser to your private repository on GitLab. It should be available at https://evolene.cs.williams.edu/cs136-labs/[your username]/lab04-dummylists.git You should see all changes reflected in the files that you
push
. If not, go back and make sure you have both committed and pushed.
We will know that the files are yours because they are in your git
repository. Do not include identifying information in the code that you submit. We grade your lab programs anonymously to avoid bias. In your README.md
file, please cite any sources of inspiration or collaboration (e.g., conversations with classmates). We take the honor code very seriously, and so should you. Please include the statement "We are the sole authors of the work in this repository."
in the comments at the top of your Java files.