Supermarket Self-Service Checkout
Assignment 1 – Supermarket Self-Service Checkout
Assignment Overview
You are tasked with
creating a text-based program for simulating a supermarket self-service checkout using the Python 3 programming
language.
The
assignment is broken up into four main components:
1.) Design and model two classes: Product and Checkout Register,
2.) Create an activity
chart which describes the behaviour of the checkout system,
3.) Create a computer
program that allows a user to interactively check out a number of products,
then provides an opportunity to enter some virtual money to pay for the
products and finally and prints out a receipt for the user (to the screen, not
on paper), and finally
4.)
Explain and integrate some code into your checkout program that places the
products purchased into virtual shopping bags.
Your
submission should consist of one Microsoft Word or LibreOffice document
containing the first two parts of the assignment, and three Python scripts that
implement the computer program (checkoutregister.py,
product.py and main.py).
The
main.py script runs the main logic
of the program and will use instances of the Checkout Register and Product
classes to simulate checking out of the supermarket.
You are provided with a Microsoft Word
template to help you complete the first two parts of this assignment.
Towards
the end of this document you will also be provided with the output of a
simulated run of the completed computer program which may help you with this
assignment.
Assignment Part 1 Details – Class
Design
Think of a product that you can buy from
a supermarket, like maybe a can of soup or an apple.
Start
by listing all the properties of that object that you can think of – try to
come up with at least ten general
properties of a Product and write these down in your Assignment_Part_1_<YOUR_STUDENT_ID> Microsoft Word document.
Next,
use the process of abstraction to cut the number of properties back to only four ‘key’ properties – write these
down in the next section of your Word document. Take a look at the week 2
lecture slides if you need a reminder on how to go about this.
Now,
fill in the class diagram for your Product class in the Word document template
provided. Your product class does not have to have any methods (i.e. functions)
associated with it to perform any actions other than a constructor which takes and set the four key properties that you’ve
identified.
Next
we’ll move on to CheckoutRegister class
– think about what information the checkout has to keep track of to allow you
to successfully check out of the supermarket. There will only really be three
key properties that the CheckoutRegister cares about, and the CheckoutRegister
class should have the following four methods available:
1)
A
default constructor that takes no
arguments and initialises a new object and its properties,
2)
accept_payment(some_amount),
3)
scan_item(some_product), and
4)
print_receipt().
Fill in the class diagram for the CheckoutRegister class in the Word
template, and that’s the first part completed!
Assignment Part 2 Details –
Activity Flowchart
Using
either the online website https://draw.io (preferred), or the applications Visio or
Powerpoint – create an activity diagram of how the program should operate to
successfully scan one or more products, accept payment, provide change and
print a receipt for the user.
Make
sure to use the correct symbols
in your diagram for starting, processes, decisions/branches, and ending the
process.
Although
you should be familiar with how a self-checkout works, if not then you can
always go to a local supermarket with a self-checkout and buy a packet of
chewing gum or something – or take a look at a YouTube video of self-service
checkout, such as this one: https://www.youtube.com/watch?v=hoyqVvHaL4s.
Don’t
worry about loyalty/rewards cards to taking payment through debit or credit
cards, our Checkout Register will only accept cash – although you can enter
multiple denominations via multiple calls to the accept_money(some_amount) method. For example, calling accept_money(5.0) and then accept_ money(2.0) will mean that the Checkout Register knows that you have entered a
total of $7.00. Also note that you
can start the entire checkout process off by simply scanning a product.
Once you have completed your activity
flowchart, add it to your assignment template document.
You
are free to implement the software however you see fit, however the functionality
of the software should be able to match the following output. Note that in the
below run of the program I have ‘hard-coded’ a small number of Product instances so that products
exist which can they can be checked out – in your code you should do the same.
Your
program does not have to have the facility to add new products – just define a
few and use them as demonstrated below. If the final option of (N)ext customer
is chosen, the program should run again
Example Program Output
----- Welcome to FedUni checkout! -----
Please enter the barcode of your item: 123
Milk, 2 Litres - $2.0
Would you like to scan another product?
(Y/N) y
Please
enter the barcode of your item: 456 Bread -
$3.5
Would you like to scan another product?
(Y/N) y
Please enter
the barcode of your item: 999 This product
does not exist in our inventory.
Would you like to scan another product?
(Y/N) n
Payment due: $5.5. Please enter an
amount to pay: 5
Payment due: $0.5. Please enter an
amount to pay: -3
We don't accept negative money!
Payment due: $0.5. Please enter an
amount to pay: 2
----- Final Receipt
|
-----
|
Milk, 2 Litres
|
$2.0
|
Bread
|
$3.5
|
Total amount due:
|
$5.5
|
Amount received:
|
$7.0
|
Change given:
|
$1.5
|
Thank you for shopping at FedUni!
(N)ext customer, or (Q)uit? q
>>
You are provided with the following two
functions which you should
1.
Analyse
to determine what they do & provide documentation comments for, and
2.
Incorporate
into your final program solution.
Wherever
there is a # followed by some
underscores in the code below, you should write a short comment explaining
what the below section of code is doing, and if there is space why
it is doing it. Do part 1 of the above in
the provided assignment 1 template document, rather than here!
#
Function to: ___________________________
def get_float(prompt):
#
____________________________________
value = float(0.0)
#
____________________________________
while True: try:
# ____________________________________
value = float(input(prompt))
#
____________________________________
if value < 0.0:
print("We don't accept
negative money!") continue
#
____________________________________
break
#
____________________________________
except
ValueError:
print('Please enter a valid floating point value.')
#
____________________________________
return
value
#
Function to: ___________________________
def bag_products(product_list):
#
____________________________________
bag_list = []
non_bagged_items = [] MAX_BAG_WEIGHT = 5.0
#
____________________________________
for
product in
product_list:
if product.weight > MAX_BAG_WEIGHT: product_list.remove(product) non_bagged_items.append(product)
#
____________________________________
current_bag_contents = []
current_bag_weight = 0.0
#
____________________________________
while
len(product_list) > 0:
#
____________________________________
temp_product = product_list[0]
product_list.remove(temp_product)
#
____________________________________
if current_bag_weight + temp_product.weight <= MAX_BAG_WEIGHT:
#
____________________________________
current_bag_contents.append(temp_product) current_bag_weight +=
temp_product.weight
#
____________________________________
else:
bag_list.append(current_bag_contents)
#
____________________________________
current_bag_contents = [temp_product]
current_bag_weight = temp_product.weight
#
____________________________________
if (len(product_list)
== 0):
bag_list.append(current_bag_contents)
#
____________________________________
for
index, bag in enumerate(bag_list):
output = 'Bag ' + str(index + 1) + ' contains: '
#
____________________________________
for
product in
bag:
output += product.name + '\t'
print(output, '\n')
#
____________________________________
if (len(non_bagged_items)
> 0):
output = 'Non-bagged items: '
#
____________________________________
for
item in
non_bagged_items:
output += item + '\t'
print(output,'\n')
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