OPS445/A1-W23-NAANCC
Assignment 1
Overview
Your assignment will be to create a script that can correctly print future and past dates. The script will divide a typical year by a given value. For example, 365 divided by 2 will be rounded to 182. Your script will then the correct date 182 days into the past and 182 days into the future.
Example:
./assignment1.py 2023-01-25 2
A year divided by 2 is 182 days. The date 182 days ago was 2022-07-27. The date 182 from now will be 2023-07-26.
Restrictions
- You may only use
sys
for parsing command line arguments. - No other modules are allowed
Instructions
The assignment will be broken into two milestones and one final submission. Please update your repository for each milestone and complete the final submission in order to earn all marks.
- Milestone 1 will be due on February 10.
- Milestone 2 will be due on February 24.
- The Final submission will be due on March 10.
Preparation
- Accept the assignment on Blackboard.
- Once you accepted the assignment, you will get access to a starting repo.
- Add your code to the existing
assignment1.py
file. - Commit after each significant change to the code.
- You can never have too many commits. GitHub is your proof of work and your backup if things go wrong.
Milestone 1
- You are provided with a function called
after()
. This function is complete and should successfully return the next day’s date when provided with a starting date inYYYY-MM-DD
format. You can experiment with this function by importing it into the Python interpreter:
from assignment1 import after
after('2023-01-25')
- Study the
after()
function and explain how it works. Use in-line comments for each line of code. - Use the
after()
function as a guide, and complete thebefore()
function. This function should perform the opposite: it should return the previous day’s date. - Don’t forget to push your code.
Check Your Work
Use the check script to verify your work so far.
python3 CheckA1.py -f -v TestBefore
Feedback
I will provide you feedback on GitHub. Check the Issues tab, and make any changes that are required before the next deadline. You can close the issue to indicate that you have seen the comment.
Milestone 2
This Milestone will ask you to refactor your code. This means modifying existing code to make it more portable.
- Complete the
leap_year()
function, using the relevant code that’s already insideafter()
. - Edit your
after()
function. Replace any code that calculates leap years with aleap_year
function call.
- Verify that
after()
still works. - Complete the
dbda()
function. Given a starting date and number of days,dbda()
should call eitherbefore()
orafter()
inside of a loop and return the end date. A negative number of days should return a date before start_date, and a postive number should return a date after start_date.
Check Your Work
Use the check script to verify your work.
-
python3 CheckA1.py -f -v TestLeap
to test yourleap_year()
function. -
python3 CheckA1.py -f -v TestAfter
to testafter()
and ensure it’s still working. -
python3 CheckA1.py -f -v TestDBDA
to testdbda()
.
Feedback
Once again I will provide you feedback on GitHub. Check the Issues tab, and make any changes that are required before the next deadline. You can close the issue to indicate that you have seen the comment.
Final Submission
For the final submission you should integrate your functions into a working script, add relevant comments and implement some error checking so that invalid dates or arguments will cause a usage message to be displayed.
- In the main block, check the number of arguments. The first argument should be a valid date, and the second should be a divisor of a typical year (365 days).
- A divisor of 2 would mean dividing a year by half. This gives us 182 days. (This is rounded down, use the
round()
function). - Print the number of days for the divisor.
- Use one call to
dbda()
to return the date that’s 182 days before the start date. - Use a second call to
dbda()
to return the date that’s 182 days after the start date.
At this point you have a working script. Implement error checking:
- Complete the
usage()
function. This should print a helpful message to the user when they make a mistake, and exit. - Complete the
valid_date()
function. This should use error checking to make sure that any date entered by the user is valid. - Ensure that the divisor argument is not zero! This would cause a Divide by zero error.
Final Checks
-
python3 CheckA1.py -f -v TestValidDate
to test yourvalid_date()
function. -
python3 CheckA1.py -f -v TestFinal
to test the final version of your script.
Submitting Your Code For Review
- Push your code to GitHub before the deadline.
- In addition, submit your code to Blackboard. A link will be provided.
Formatting And Style
A significant amount of your mark will be based on the things that aren’t your code. Please review the following guidelines to maximise your grade.
Comments And Documentation
You need to be commenting your code. The following documentation is required:
- in-line comments: Any line of code that is doing something non-obvious should be commented. Explain why you are doing something, rather than what you are doing.
- function docstrings: After your
def
line, you enter a docstring inside ““. Any function that doesn’t already come with a docstring should have one. - top-level docstring: You will have noticed that the top of your
assignment1.py
file already has this docstring. Complete the Academic Honesty declaration and complete the docstring.
PEP
The PEP-8 Style Guide is an official Python document that describes best practices for formatting your code. You should follow this guide as much as possible. You may find that using a linter to check style to be useful.
Functions and Variables
- In addition to the required functions, you may create as many functions as you need.
- Functions should be in lower case, and spaces should be represented with an underscore. For example:
function_name
. - Any data used inside of a function should be passed in as a parameter. Avoid global variables.
- Variables should have a sensible name. Avoid naming things
x
. - Variables should be in lower case, and spaces represented by an underscore. For example:
start_date
.
Git Commits
A workplace will have its own policy about how often to commit, and how to document commits. For us, git commits are your proof of work. Assignments that lack commits are subject to Academic Integrity review.
- A good practice is to create a commit for every significant change to your code. At the very least, commit after completing each of the required functions.
- An acceptable commit message needs to short, but should also describe the change. For example:
git commit -m "completed the leap_year function"
.
Rubric
Element | Marks |
---|---|
Milestone 1: | |
Documentation for after function
|
4 |
TestBefore Checks | 6 |
Milestone 2: | |
TestAfter Checks | 6 |
TestLeap Checks | 2 |
TestDBDA Checks | 2 |
Final Submission: | |
TestValidDate Checks | 4 |
TestFinal Checks | 12 |
Comments and Documentation | 5 |
github use | 5 |
functions and style | 2 |
error checking | 2 |
Sample Output
./assignment1.py 2023-01-25 2
A year divided by 2 is 182 days. The date 182 days ago was 2022-07-27. The date 182 from now will be 2023-07-26.
./assignment1.py 2020-02-14 4
A year divided by 4 is 91 days. The date 91 days ago was 2019-11-15. The date 91 from now will be 2020-05-15.
./assignment1.py 2023-02-29 3
Error: wrong day entered Usage: ./assignment1.py YYYY-MM-DD division
./assignment1.py 2001-13-01
Usage: ./assignment1.py YYYY-MM-DD division
./assignment1.py 2001-13-01 5
Error: wrong month entered Usage: ./assignment1.py YYYY-MM-DD division
./assignment1.py 2011-12-01 0
Usage: ./assignment1.py YYYY-MM-DD division