CP1404程序代做、代写Java,c++编程设计
XUT CP1404 Assignment 1 © Lindsay Ward, James Cook University 1/5
XUT CP1404 Assignment 1 – Song List 1.0
Task:
You are to write a Python (3) program, as described in the following information and sample
output. This assignment will help you build skills using selection, repetition, file input/output,
exceptions, lists, functions and string formatting. Do not define any of your own classes or use
constructs that haven't been taught in this subject. Assignment 2 will build on this with more
advanced constructs including classes and a Graphical User Interface (GUI).
Everything you need to complete this assignment can be found in the subject teaching.
You will be given starter files including a README for your project, all of which you must use.
Program Overview:
This program is a simple song list that allows a user to track songs that they wish to learn and
songs they have completed learning. The program reads and writes a list of songs in a file.
Each song has:
• title, artist, year, whether it is learned
Users can choose to display the list of songs.
The song list should be sorted by year then by title (use operator.itemgetter) for sorting.
Users can add new songs and mark (set) songs as learned.
They cannot change songs from learned to unlearned.
Program Functionality Details:
Ensure that your program has the following features, as demonstrated in the sample output
below. Your program should:
• display a welcome message with your name in it
• display a menu for the user to choose from
• return to the menu after each action and loop until the user chooses to quit
• load a CSV (Comma Separated Values) file of songs (just once at the very start); a
sample CSV file is provided for you and you must use this format (note: you're not
expected to use the csv module, but you're welcome to)
• when the user chooses display: display a neatly formatted (lined up) list of all the songs
with their details (unlearned songs have an * next to them) and a count of these songs
(note: you are welcome to either guess or calculate the size of the title and artist fields
to line them up - either way is fine)
• when the user chooses add: prompt for the song’s title, artist and year,
error-checking each of these, then add the song to the song list in memory (not to the
file); new songs are always unlearned
• when the user chooses to complete a song: allow the user to choose one song by
number (error-checked), then change that song's status to learned
o if no songs are unlearned, then display a "No more songs to learn!" message
• when the user chooses quit: save the songs to the CSV file, overwriting file contents
Coding Requirements and Suggestions:
• Work incrementally on this task: complete small parts of it at a time rather than trying to
get it all working at once.
• Edit the module docstring at the very top of your code file to contain your own details.
• Make use of named constants as appropriate (e.g., for the characters that represent
the song's learned/unlearned status).
• Use functions appropriately for each significant part of the program: this is the divideand-conquer problem-solving approach. Follow the principles you've learned about
XUT CP1404 Assignment 1 © Lindsay Ward, James Cook University 2/5
functions, including the single responsibility principle (SRP).
• Only load (read) the file once, when the program starts.
• Only save (write) the file once, when the program ends.
• Store the song data in a list of lists and pass that to any functions that need access
to it. Note: this variable should not be global. The only global variables you may have
are CONSTANTS. (Did you understand this? If you use global variables, your functions
will be poorly designed. Do not use any global variables.)
• Do not store a song's index – this is just its position in the list.
• The menu choice should handle uppercase and lowercase letters.
• Use exception handling where appropriate to deal with input errors (including entering
numbers and selecting songs).
• Use generic, customisable functions to perform input with error checking (e.g., getting
the song title and artist can reuse the same function).
• The output shows that the solution does not require correct plurals (e.g., "1 songs").
You are welcome to leave yours this way. You may add logic to print these statements
correctly, but it is not expected or assessed.
Check the rubric carefully to understand how you will be assessed. There should be no
surprises here – this is about following the best practices we have taught in class.
Integrity:
The work you submit for this assignment must be your own. Submissions that are detected to
be too similar to that of another student or other work (e.g., code found online or generated
with tools) will be dealt with according to university procedures for handling plagiarism and
may result in serious penalties.
The goals of this assignment include helping you gain understanding of fundamental
programming concepts and skills, and future subjects will build on this learning. Therefore, it
is important that you develop these skills to a high level by completing the work and gaining
the understanding yourself. You may discuss the assignment with other students and get
assistance from your peers, but you may not do any part of anyone else’s work for them and
you may not get anyone else to do any part of your work. Note that this means you should
never give a copy of your work to anyone or accept a copy of anyone else’s work,
including looking at another student's work or having a classmate look at your work.
If you require assistance with the assignment, please ask general questions on the
discussion forum, or get specific assistance with your own work by talking with your lecturer
or tutor.
The subject teaching contains all the information you need for this particular assignment. You
should not use online resources (e.g., search, Stack Overflow, ChatGPT) to find resources or
assistance as this would limit your learning and would mean that you would not achieve the
goals of the assignment - mastering fundamental programming concepts and skills.
Sample Output:
Sample output from the program is provided below. Ensure that your program matches
this, including spaces, spelling and formatting. Think of this as helpful guidance as well
as training you to pay attention to detail. The sample output is intended to show a large (but
maybe not exhaustive) range of situations including user input error handling.
The following sample run was made using a CSV file that contained:
Heartbreak Hotel,Elvis Presley,1956,u
Macarena,Los Del Rio,1996,l
Amazing Grace,John Newton,1779,l
I Want to Hold Your Hand,The Beatles,1964,u
Boom Boom Pow,The Black Eyed Peas,2009,u
My Sharona,The Knack,1979,l
XUT CP1404 Assignment 1 © Lindsay Ward, James Cook University 3/5
You should be able to figure out what parts of the sample output below are user input.
Song List 1.0 - by Lindsay Ward
6 songs loaded.
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> this will be FUN
Invalid menu choice
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> d
1. Amazing Grace - John Newton (1779)
2. * Heartbreak Hotel - Elvis Presley (1956)
3. * I Want to Hold Your Hand - The Beatles (1964)
4. My Sharona - The Knack (1979)
5. Macarena - Los Del Rio (1996)
6. * Boom Boom Pow - The Black Eyed Peas (2009)
3 songs learned, 3 songs still to learn.
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> c
Enter the number of a song to mark as learned.
>>> 0
Number must be > 0.
>>> -1
Number must be > 0.
>>> 9
Invalid song number
>>> 7
Invalid song number
>>> 6
Boom Boom Pow by The Black Eyed Peas learned
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> c
Enter the number of a song to mark as learned.
>>> 6
You have already learned Boom Boom Pow
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> d
1. Amazing Grace - John Newton (1779)
2. * Heartbreak Hotel - Elvis Presley (1956)
3. * I Want to Hold Your Hand - The Beatles (1964)
4. My Sharona - The Knack (1979)
5. Macarena - Los Del Rio (1996)
6. Boom Boom Pow - The Black Eyed Peas (2009)
4 songs learned, 2 songs still to learn.
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> a
Enter details for a new song.
Title:
Input can not be blank.
Title: Can I Walk With You?
Artist:
Input can not be blank.
Artist:
Input can not be blank.
Artist: See Jane Run
Year: 0
Number must be > 0.
Year: -1
Number must be > 0.
Year: why must the year be like that?
XUT CP1404 Assignment 1 © Lindsay Ward, James Cook University 4/5
Invalid input; enter a valid number.
Year:
Invalid input; enter a valid number.
Year: 1998
Can I Walk With You? by See Jane Run (1998) added to song list.
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> D
1. Amazing Grace - John Newton (1779)
2. * Heartbreak Hotel - Elvis Presley (1956)
3. * I Want to Hold Your Hand - The Beatles (1964)
4. My Sharona - The Knack (1979)
5. Macarena - Los Del Rio (1996)
6. * Can I Walk With You? - See Jane Run (1998)
7. Boom Boom Pow - The Black Eyed Peas (2009)
4 songs learned, 3 songs still to learn.
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> quit
Invalid menu choice
Menu:
D - Display songs
A - Add new song
C - Complete a song
Q - Quit
>>> q
7 songs saved to songs.csv
Make some music!
At the end of this run, the saved CSV file contained:
Amazing Grace,John Newton,1779,l
Heartbreak Hotel,Elvis Presley,1956,u
I Want to Hold Your Hand,The Beatles,1964,u
My Sharona,The Knack,1979,l
Macarena,Los Del Rio,1996,l
Can I Walk With You?,See Jane Run,1998,u
Boom Boom Pow,The Black Eyed Peas,2009,l
XUT CP1404 Assignment 1 © Lindsay Ward, James Cook University 5/5
Marking Scheme:
Ensure that you follow the processes and guidelines taught in class to produce high quality work. Do not just focus on getting the program working.
This assessment rubric provides you with the characteristics of exemplary down to very limited work in relation to task criteria.
Criteria Exemplary (9, 10) Good (7, 8) Satisfactory (5, 6) Limited (2, 3, 4) Very Limited (0, 1)
Correctness
20%
Program works correctly for all
functionality required.
Exhibits aspects of exemplary
(left) and satisfactory (right)
Program mostly works correctly for
most functionality, but there is/are
some required aspects missing or
that have problems.
Exhibits aspects of satisfactory
(left) and very limited (right)
Program works incorrectly for all
functionality required.
Error checking
10%
Invalid inputs are handled well
using exceptions and control logic
as instructed, for all user inputs.
Invalid inputs are mostly handled
correctly as instructed, but there
is/are some problem(s), e.g.,
exceptions not well used.
Error checking is not done or is very
poorly attempted.
Similarity to sample
output
10%
All outputs match sample output
perfectly, or only one minor
difference, e.g., wording, spacing.
Multiple differences (e.g., typos,
spacing, formatting) in program
output compared to sample output.
No reasonable attempt made to
match sample output. Very many
differences.
Identifier naming
10%
All function, variable and constant
names are appropriate, meaningful
and consistent.
Multiple function, variable or
constant names are not
appropriate, meaningful or
consistent.
Many function, variable or constant
names are not appropriate,
meaningful or consistent.
Use of code
constructs
20%
Appropriate and efficient code use,
including good logical uses of
constants, data structures, decision
and repetition structures.
Mostly appropriate code use but
with some problems, e.g.,
unnecessary code, poor use of
constants, data structures, decision
and repetition structures.
Many significant problems with
code use.
Use of functions
15%
Functions and parameters are
appropriately used, functions are
well reused to avoid code
duplication, functions follow SRP
well.
Reasonable but not good use of
functions, e.g., poor parameter
choices, function choices don't
follow SRP well, too much low-level
detail in main.
No functions used or functions used
very poorly.
Any use of global variables.
Formatting
5%
All code formatting is appropriate,
including correct indentation,
horizontal spacing and consistent
vertical line spacing. PyCharm
shows no formatting warnings.
Multiple problems with code
formatting reduce readability of
code. PyCharm shows formatting
warnings.
Readability is poor due to code
formatting problems. PyCharm
shows many formatting warnings.
Commenting
10%
Meaningful docstrings for all
functions, appropriate # block/inline
comments, top docstring and
README are complete.
Missing function docstrings, noise
comments or missing block/inline
comments, details missing from top
docstring or README.
Commenting is very poor either
through having too many comments
(noise) or too few comments.