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Team Test • 24 min read

Collaboration Review

What are the benefits of a team?

  • Collaboration: Teams bring together diverse perspectives and skills, enhancing problem-solving and creativity.
  • Increased Productivity: Team members can divide tasks, reducing individual workload and achieving goals faster.
  • Knowledge Sharing: Teams allow for the exchange of expertise and learning opportunities.
  • Support and Motivation: Team members can provide emotional support and motivation, boosting morale.
  • Better Decision-Making: Diverse opinions lead to well-rounded decisions.
  • Risk Mitigation: Multiple minds can identify and address potential issues more effectively. Our team comprises members from various cultural backgrounds, enriching our perspectives and approaches. We have individuals with a wide range of skills, from technical to creative, ensuring comprehensive problem-solving.

Things we will do to facilitate communication amongst group members:

  • Regular Meetings: We will hold regular team meetings every class to discuss progress, issues, and updates.
  • Communication Tools: We will utilize communication tools like text, snapchat, and slack.
  • Open Code Policy: Encouraging open and honest communication and collaboration, team members can refer to eachother’s codes for help and collaboration.
  • Clear Channels: Establishing clear channels for reporting problems or seeking assistance.

We will hold each person accountable for their portion of the work by:

  • Assigning Roles and Responsibilities: Clearly defining who is responsible for what tasks from the outset.
  • Deadlines: Setting specific deadlines for each task or project phase.
  • Review Tickets: Using review tickets or task tracking software to monitor progress and completion.
  • Peer Reviews: Implementing a peer review process where team members assess each other’s work.
  • Performance Metrics: Tracking individual performance metrics and discussing progress during team meetings.
  • Consequences and Rewards: Implementing a system of consequences for missed deadlines and rewards for exceptional performance.

Program Function and Purpose

To “make” a program with function and purpose, you need to “plan” a program with function and purpose. Our Jupyter Notebook will show examples of the following.

Program with Output: Print Function

from emoji import emojize 
print(emojize(":thumbs_up: Jayden and Will are awesome! :grinning_face:"))

Program with Input and Output: Python Quiz

import getpass, sys
def question_with_response(prompt):
    print("Question: " + prompt)
    msg = input()
    return msg
questions = 3
correct = 0
print('Hello, ' + getpass.getuser() + " running " + sys.executable)
print("You will be asked " + str(questions) + " questions.")
question_with_response("Are you ready to take a test?")
rsp = question_with_response("What is the best baby name?")
if rsp == "jayden":
    print(rsp + " is correct!")
    correct += 1
else:
    print(rsp + " is incorrect!")
rsp = question_with_response("Does Will smell?")
if rsp == "yes":
    print(rsp + " is correct!")
    correct += 1
else:
    print(rsp + " is incorrect!")
rsp = question_with_response("Who is the next president of the USA")
if rsp == "jayden chen":
    print(rsp + " is correct!")
    correct += 1
else:
    print(rsp + " is incorrect!")
print(getpass.getuser() + " you scored " + str(correct) +"/" + str(questions))


Program with a List: Cool Kid List

# Define an empty List called InfoDb
InfoDb = []

# InfoDB is a data structure with expected Keys and Values

# Append to List a Dictionary of key/values related to a person and cars
InfoDb.append({
    "FirstName": "Jayden",
    "LastName": "Chen",
    "DOB": "May 31, 2007",
    "Residence": "San Diego",
    "Email": "jaydenchen16@gmail.com",
    "Cool?": ["Yes"]
})

# Append to List a 2nd Dictionary of key/values
InfoDb.append({
    "FirstName": "Will",
    "LastName": "Bartelt",
    "DOB": "September 25, 2006",
    "Residence": "San Diego",
    "Email": "willbartelt@gmail.com",
    "Cool": ["Yes"]
})

# Append to List a 2nd Dictionary of key/values
InfoDb.append({
    "FirstName": "Howie",
    "LastName": "Nguyen",
    "DOB": "January 21, 2007",
    "Residence": "San Diego",
    "Email": "howien07@gmail.com",
    "Cool?": ["Yes"]
})

# Append to List a 3rd Dictionary of key/values
InfoDb.append({
    "FirstName": "Nihar",
    "LastName": "Gupta",
    "DOB": "September 10, 2008",
    "Residence": "San Diego",
    "Email": "niharg@gmail.com",
    "Cool?": ["Yes"]
})

# Print the data structure
print(InfoDb)


Program with a Dictionary: Word Search

from PyDictionary import PyDictionary

#Initialize the PyDictionary
dictionary = PyDictionary()

#Function to fetch the meaning of a word
def fetch_meaning(word):
    try:
        meanings = dictionary.meaning(word)
        if meanings:
            for part_of_speech, definition_list in meanings.items():
                print(f"{part_of_speech}:")
                for definition in definition_list:
                    print(f"  - {definition}")
        else:
            print(f"Meaning not found for '{word}'")
    except Exception as e:
        print(f"An error occurred: {e}")

#Simple CLI interface for word lookup
while True:
    user_input = input("Enter a word to lookup (or 'exit' to quit): ").strip()

    if user_input.lower() == 'exit':
        break

    fetch_meaning(user_input)


Program with Iteration: Cool Kid Convert Table

# Define an empty List called InfoDb
InfoDb = []

# InfoDB is a data structure with expected Keys and Values

# Append to List a Dictionary of key/values related to a person and coolness
InfoDb.append({
    "FirstName": "Jayden",
    "LastName": "Chen",
    "DOB": "May 31, 2007",
    "Residence": "San Diego",
    "Email": "jaydenchen16@gmail.com",
    "Cool?": ["Yes"]
})

# Append to List a 2nd Dictionary of key/values
InfoDb.append({
    "FirstName": "Will",
    "LastName": "Bartelt",
    "DOB": "September 25, 2006",
    "Residence": "San Diego",
    "Email": "willbartelt@gmail.com",
    "Cool?": ["Yes"]
})

# Append to List a 2nd Dictionary of key/values
InfoDb.append({
    "FirstName": "Howie",
    "LastName": "Nguyen",
    "DOB": "January 21, 2007",
    "Residence": "San Diego",
    "Email": "howien07@gmail.com",
    "Cool?": ["Yes"]
})

# Append to List a 3rd Dictionary of key/values
InfoDb.append({
    "FirstName": "Nihar",
    "LastName": "Gupta",
    "DOB": "September 10, 2008",
    "Residence": "San Diego",
    "Email": "niharg@gmail.com",
    "Cool?": ["Yes"]
})

# Print the data structure
print(InfoDb)

# This jupyter cell has dependencies on one or more cells above

# print function: given a dictionary of InfoDb content
def print_data(d_rec):
    print(d_rec["FirstName"], d_rec["LastName"])  # using comma puts space between values
    print("\t", "Residence:", d_rec["Residence"]) # \t is a tab indent
    print("\t", "Birth Day:", d_rec["DOB"])
    print("\t", "Cool kid???: ", end="")  # end="" make sure no return occurs
    print(", ".join(d_rec["Cool?"]))  # join allows printing a string list with separator
    print()


# for loop algorithm iterates on length of InfoDb
def for_loop():
    print("For loop output\n")
    for record in InfoDb:
        print_data(record) # call to function

for_loop() # call to function


Program with a Function to perform mathematical and/or a statistical calculations: Average Calculator

Program with a Selection/Condition: x-value test

x = 100

if x > 5:
    print("x is greater than 5")
else:
    print("x is not greater than 5")


Finish with a Program with Purpose: Pacman

Program Design and Development

The following program calculates the average of numbers in a list using iteration:

# Define a list of numbers
numbers = [10, 20, 30, 40, 50]

# Initialize a variable to store the sum of numbers
total = 0

# Iterate through the list of numbers
for num in numbers:
    # Add each number to the total
    total += num

# Calculate the average by dividing the total by the number of elements in the list
average = total / len(numbers)

# Print the list of numbers
print("List of Numbers:", numbers)

# Print the sum of numbers
print("Sum of Numbers:", total)

# Print the average
print("Average:", average)

We start by defining a list of numbers called numbers.

We initialize a variable total to store the sum of the numbers, setting it to 0.

We use a for loop to iterate through each element in the numbers list. The variable num represents each number in the list during each iteration.

Inside the loop, we add each number to the total using the += operator.

After the loop has finished iterating through all the numbers, we calculate the average by dividing the total by the number of elements in the list, which is obtained using the len() function.

We print the list of numbers, the sum of numbers, and the calculated average to the console.

Identifying and Correct Errors

Bugged Program

menu =  {"burger": 3.99,
         "fries": 1.99,
         "drink": 0.99}
total = 0

#shows the user the menu and prompts them to select an item
print("Menu")
for k,v in menu.items():
    print(k + "  $" + str(v)) #why does v have "str" in front of it?

#ideally the code should prompt the user multiple times
item = input("Please select an item from the menu")

#code should add the price of the menu items selected by the user 
print(total)


Our New Program

menu = {
    "burger": 3.99,
    "fries": 1.99,
    "drink": 0.99
}

bill = []

# Display the menu
print("Menu")
for item, price in menu.items():
    print(f"{item}: ${price:.2f}")

while True:
    item = input("Please select an item from the menu (or enter 'done' to finish): ").lower()

    if item == 'done':
        break

    if item in menu:
        bill.append(menu[item])
        print(f"{item.capitalize()} added to the bill.")
    else:
        print("Invalid item. Please select an item from the menu or enter 'done' to finish.")

if bill:
    total_cost = sum(bill)
    print(f"Your total bill amount is: ${total_cost:.2f}")
else:
    print("No items selected. Have a nice day!")

We start by defining a list of numbers called numbers.

We initialize a variable total to store the sum of the numbers, setting it to 0.

We use a for loop to iterate through each element in the numbers list. The variable num represents each number in the list during each iteration.

Inside the loop, we add each number to the total using the += operator.

After the loop has finished iterating through all the numbers, we calculate the average by dividing the total by the number of elements in the list, which is obtained using the len() function.

We print the list of numbers, the sum of numbers, and the calculated average to the console.