Designed for use with GitHub Classroom, this repository contains the starter for Laboratory 3 in Computer Science 101. Since the Travis builds for this repository will initially fail (as evidenced by a red ✗ appearing in the commit logs instead of a green ✔), the programmer is responsible for completing all of the steps needed to satisfy the requirements for the assignment, thus causing a ✔ to instead appear in the commit logs.
This assignment requires a programmer to implement and test a Java program,
called Reverser
, that will produce twenty-eight lines of output. More details
about the source code needed for this program are also provided in the
discussion of generic methods on page 95 of the textbook. Please note that this
program will also require you to read and modify another Java class that
contains a test suite. The programmer is also responsible for learning how to
run and extend a test suite written in the JUnit testing framework, as
explained in Section 1.9. As verified by
Checkstyle, the source code for
file such as Reverser.java
and TestReverser.java
files must adhere to all
of the requirements in the Google Java Style
Guide.
The programmer is also responsible for writing a reflection, stored in the file
writing/reflection.md
, that responds to the questions in the assignment sheet
and explains the challenges that you faced and the solutions you developed.
Please note that this is a Markdown file that must adhere to the standards
described in the Markdown Syntax
Guide. Remember, you
can preview the contents of a comitted Markdown file by clicking on the name of
the file in your GitHub repository. Finally, don't forget that your
writing/reflection.md
file should adhere to the Markdown standards established
by the Markdown linting tool and
the writing standards set by the Proselint tool.
The source code in the Reverser.java
file must also pass additional
tests set by the GatorGrader tool.
For instance, GatorGrader will check to ensure that Reverser
has
println
statements that produce exactly twenty-six lines of output.
GatorGrader will also check that your program performs the correct reversal of
an array. More details about the GatorGrader checks are included later in this
document and in the assignment sheet.
When you use the git commit
command to transfer your source code to your
GitHub repository, Travis CI will initialize a build
of your assignment, checking to see if it meets all of the requirements. If both
your source code and writing meet all of the established requirements, then you
will see a green ✔ in the listing of commits in GitHub. If your
submission does not meet the requirements, a red ✗ will appear instead.
The instructor will reduce a programmer's grade for this assignment if the red
✗ appears on the last commit in GitHub immediately before the
assignment's due date.
A carefully formatted assignment sheet for this project provides more details about the steps that a computer scientist should take to complete this assignment. You can view this assignment sheet by visiting the listing of laboratories on the course web site.
If you have not done so already, please read all of the relevant GitHub Guides that explain how to use many of the features that GitHub provides. In particular, please make sure that you have read the following GitHub guides: Mastering Markdown, Hello World, and Documenting Your Projects on GitHub. Each of these guides will help you to understand how to use both GitHub and GitHub Classroom.
To do well on this assignment, you should also review Chapter 2 of the course textbook, paying close attention to Section 2.5 and the source code on page 95. Please see the course instructor or one of the teaching assistants or tutors if you have questions about any of these reading assignments.
To get started in using the GatorGrader tool, you can change into the directory
for this assignment and type the command gradle grade
in your terminal.
Running this command will produce a lot of output that you should carefully
inspect. If the output indicates that GatorGrader judges that there are no
mistakes in the assignment, then this means that your source code and writing
are passing all of the automated baseline checks. However, if the output
indicates that there are mistakes, then you will need to understand what they
are and then try to fix them.
Running this command will produce a lot of output that you should carefully inspect. If the last line of the output indicates that GatorGrader judges that there are no mistakes in the assignment, then this means that your source code and writing are passing all of the automated checks. However, if the last line of the output indicates that there are mistakes, then you will need to understand what they are and then try to fix them.
You can also complete several important Java programming tasks by using the
gradle
tool. For instance, you can compile (i.e., create bytecode from the
program's source code if it is a correct program) the program using the command
gradle build
. There are also additional commands that you can type:
gradle clean
: clean the project of all the derived filesgradle check
: check the quality of the code using Checkstylegradle build
: create the bytecode from the Java source codegradle run
: run the Java program in the command-linegradle cleanTest
: clean the JUnit test suite of derived filesgradle test
: run the JUnit test suite and produce reportgradle tasks
: display details about the Gradle system
To run one of these commands, you must be in the home directory for this
assignment where the build.gradle
file is located. Then, you can type the
command in the terminal and study the output.
Typing the command gradle run
in the terminal window produces the following
output for the instructor's version of Reverser
. Please note that
other classes have methods that you must correctly implement to ensure that the
Reverser
produces the correct output.
Printing Sentences before Reversal ...
(0, Sentence 0)
(1, Sentence 1)
(2, Sentence 2)
(3, Sentence 3)
(4, Sentence 4)
... Done Printing Sentences before Reversal.
Printing Sentences after Reversal ...
(4, Sentence 4)
(3, Sentence 3)
(2, Sentence 2)
(1, Sentence 1)
(0, Sentence 0)
... Done Printing Sentences after Reversal.
Printing Integers before Reversal ...
0
1
2
3
4
... Done Printing Integeres before Reversal.
Printing Integers after Reversal ...
4
3
2
1
0
... Done Printing Integers after Reversal.
In addition to making the checks that are mentioned in the introduction to this document, your final submission must meet the following requirements.
-
labthree/Sentences.java:
- Contains at least nine multi-line comments in the JavaDoc standard
- Passes all of the test cases defined in the
TestSentences.java
file. - Contains exactly zero of the
TODO
fragment to mark incomplete tasks
-
labthree/Reverser.java:
- Contains exactly 12
println
statements to produce program output - Runs correctly without crashing or producing an error
- Produces exactly twenty-eight lines of output in the terminal
- Produces output that contains exactly four of the fragment
before
- Produces output that contains exactly four of the fragment
after
- Produces output that contains exactly four of the fragment
Done
- Contains exactly 12
-
writing/reflection.md:
- Passes the checks performed by the Markdown linting tool
- Passes the checks performed by the Prose linting tool
- Contains exactly five contiguous paragraph of formatted text
- Each of the contiguous paragraphs contains at least 100 words
-
GitHub repository:
- Contains five commits beyond the repository's starting number of commits
If the course instructor updates the provided material for this assignment and you would like to receive these updates, then you can type this command in the main directory for this assignment:
git remote add download git@github.com:Allegheny-Computer-Science-101-F2018/cs101-F2018-lab3-starter.git
You should only need to type this command once; typing the command additional times may yield an error message but will not negatively influence the state of your repository. Now, you are ready to download the updates provided by the course instructor by typing:
git pull download master
This second command can be run whenever the course instructor needs to provide you with new source code for this assignment. However, please note that, if you have edited the files that the course instructor updated, running the previous command may lead to Git merge conflicts. If this happens, you may need to manually resolve them with the help of the instructor or a teaching assistant.
This assignment uses Travis CI to automatically run the checking programs every time you commit to your GitHub repository. The checking will start as soon as you have accepted the assignment, thus creating your own private repository, and the course instructor enables Travis for it. If you are using Travis for the first time, you will need to authorize Travis CI to access the private repositories that you created on GitHub.
The GatorGrader software that supports the checking of this assignment was developed for the following software and versions:
- Gradle 4.6
- Java 1.8.0
- JUnit 4.9.0
- MDL 0.4.0
- Proselint 0.8.0
- Python 3.6
If you have found a problem with this assignment's provided source code, then you can go to the Computer Science 101 Lab 3 Starter repository and create an issue by clicking the "Issues" tab and then clicking the green "New Issue" button. If you have found a problem with the GatorGrader tool and the way that it checks you assignment, then you can follow the aforementioned steps to create an issue in its repository. To ensure that your issue is properly resolved, please provide as many details as is possible about the problem that you experienced. If you discover a problem with the laboratory assignment sheet, then please raise an issue in the cs101-F2018-sheets repository and mention this assignment.
Students who find, and use the appropriate GitHub issue tracker to correctly document, a mistake in any aspect of this laboratory assignment will receive free laptop stickers and extra credit towards their grade for it.
If you are having trouble completing any part of this project, then please talk with either the course instructor or a teaching assistant during the laboratory session. Alternatively, you may ask questions in the Slack team for this course. Finally, you can schedule a meeting during the course instructor's office hours.