#!/usr/bin/env python3 # PTO Countdown import os from datetime import datetime, timedelta # Clear the terminal screen os.system('cls' if os.name == 'nt' else 'clear') def calculate_reach_date(current_hours, max_hours, hours_added_bi_weekly): """ Calculates the estimated date when the maximum Paid Time Off (PTO) hours will be reached. Parameters: - current_hours (float): The current total of PTO hours accumulated by the user. - max_hours (float): The maximum PTO hours that can be accumulated. - hours_added_bi_weekly (float): The number of PTO hours added every two weeks. Returns: - datetime.date: The estimated date when the maximum PTO balance is reached. """ hours_needed = max_hours - current_hours bi_weekly_periods_needed = hours_needed / hours_added_bi_weekly days_needed = bi_weekly_periods_needed * 14 reach_date = datetime.now() + timedelta(days=days_needed) return reach_date # Constants for the program MAX_HOURS = 240 HOURS_ADDED_BI_WEEKLY = 6.15384615 # 160 hours per year # HOURS_ADDED_BI_WEEKLY = 7.69230769 # 200 hours per year # HOURS_ADDED_BI_WEEKLY = 9.61538462 # 250 hours per year LAST_KNOWN_PTO_BALANCE = 220.08 # Introduction and instructions for the user print("PTO Balance Calculator") print("----------------------") print("Determine when you will reach your maximum PTO balance based on your current accrual.") print(f"\nLast known PTO balance: {LAST_KNOWN_PTO_BALANCE}\n") # Handling user input try: current_hours_input = input("Enter your current PTO hours: ") current_hours = float(current_hours_input.strip()) reach_date = calculate_reach_date(current_hours, MAX_HOURS, HOURS_ADDED_BI_WEEKLY) print("\nCalculation Results") print("-------------------") print(f"Today's Date: {datetime.now().strftime('%A, %B %d, %Y')}") print(f"Maximum PTO balance of {MAX_HOURS} hours will be reached on: {reach_date.strftime('%A, %B %d, %Y')}.") except ValueError: print("Error: Please enter a valid number for your current PTO hours.")