#!/usr/bin/env python3 from argparse import ArgumentParser from datetime import timedelta from getpass import getuser # from platform import machine as architecture from platform import platform as system from platform import release as kernel from random import choice as random_choice from socket import gethostname from time import clock_gettime, CLOCK_BOOTTIME from distro import name as distribution from packages import get_num_packages as packages # Define a dictionary of all the flags and their colors # Each color is the color for an individual row in the flag flags = { "classic": [196, 208, 226, 28, 20, 90], "gay": [23, 43, 115, 255, 117, 57, 55], "bisexual": [198, 198, 97, 25, 25], "lesbian": [202, 209, 255, 255, 168, 161], "pansexual": [198, 220, 39], "trans": [81, 211, 255, 211, 81], "nonbinary": [226, 255, 98, 237], "demiboy": [244, 249, 117, 255, 117, 249, 244], "demigirl": [244, 249, 218, 255, 218, 249, 244], "genderfluid": [211, 255, 128, 0, 63], "aromantic": [71, 149, 255, 249, 0], "agender": [0, 251, 255, 149, 255, 251, 0], "asexual": [0, 242, 255, 54], "graysexual": [54, 242, 255, 242, 54], } # When printed, reset will end the color of the row reset = "\033[0m\033[39m" def color256(col: int, bg_fg: str) -> str: # Hacky alias around manually typing out escape codes every time return f"\033[{48 if bg_fg == 'bg' else 38};5;{col}m" def draw_fetch(flag_name: str, width: int = None): # Load the flag from the dictionary of flags flag = flags[flag_name] # Make sure that the row color is different to the color of the hostname row_color = color256(flag[1] if flag[0] != flag[1] else flag[2], "fg") black = '\x1b[38;5;242m' row_data = [ f"{color256(flag[0], 'fg') if row_color != black else color256(242, 'fg')}" f"\033[1m{getuser()}@{gethostname()}{reset}", f"{row_color}os {reset}{distribution() or system() or 'N/A'}", # f"{row_color}arch {reset}{architecture() or 'N/A'}", f"{row_color}pkgs {reset}{packages() or 'N/A'}", f"{row_color}kernel {reset}{kernel() or system() or 'N/A'}", f"{row_color}uptime {reset}{str(timedelta(seconds=clock_gettime(CLOCK_BOOTTIME))).split('.', 1)[0]}" ] while len(flag) < len(row_data): # If the data is greater than the flag length then duplicate the length of the flag until it is longer flag = [element for element in flag for _ in (0, 1)] # Set the width of the flag relative to it's height width = width or round(len(flag) * 1.5 * 3) # Ensures nothing is printed for empty lines row_data.append("") # Print a blank line to separate the flag from the terminal prompt print() for index, row in enumerate(flag): # Print out each row of the fetch print(f" {color256(row, 'bg')}{' ' * width}\033[49m{reset} {row_data[min(index, len(row_data) - 1)]}{reset}") # Print a blank line to separate the flag from the terminal prompt print() def main(): # Argument configuration parser = ArgumentParser() parser.add_argument("-f", "--flag", help="displays the chosen flag") parser.add_argument("-r", "--random", help="randomly choose a flag from a list seperated by commas") parser.add_argument("-w", "--width", help="choose a custom width for the flag", type=int) parser.add_argument("-l", "--list", help="lists all the flags that can be displayed", action="store_true") # Parse the arguments args = parser.parse_args() if args.flag: # Check if the flag exists in the dictionary of flags assert args.flag in flags.keys(), f"flag '{args.flag}' is not a valid flag" # Draw the chosen flag and system information draw_fetch(args.flag, args.width) if args.random: # Choose a flag at random from a list of comma-seperated flags flag_choices = args.choose.split(",") draw_fetch(random_choice(flag_choices)) if args.list: # List out all the available flags print(f"Available flags:\n{', '.join(flags)}") if __name__ == "__main__": main()