import random from typing import List def print_intro() -> None: print(" DIGITS") print(" CREATIVE COMPUTING MORRISTOWN, NEW JERSEY") print("\n\n") print("THIS IS A GAME OF GUESSING.") def read_instruction_choice() -> bool: print("FOR INSTRUCTIONS, TYPE '1', ELSE TYPE '0' ? ") try: choice = int(input()) return choice == 1 except (ValueError, TypeError): return False def print_instructions() -> None: print("\n") print("PLEASE TAKE A PIECE OF PAPER AND WRITE DOWN") print("THE DIGITS '0', '1', OR '2' THIRTY TIMES AT RANDOM.") print("ARRANGE THEM IN THREE LINES OF TEN DIGITS EACH.") print("I WILL ASK FOR THEN TEN AT A TIME.") print("I WILL ALWAYS GUESS THEM FIRST AND THEN LOOK AT YOUR") print("NEXT NUMBER TO SEE IF I WAS RIGHT. BY PURE LUCK,") print("I OUGHT TO BE RIGHT TEN TIMES. BUT I HOPE TO DO BETTER") print("THAN THAT *****") print() def read_10_numbers() -> List[int]: print("TEN NUMBERS, PLEASE ? ") numbers = [] for _ in range(10): valid_input = False while not valid_input: try: n = int(input()) valid_input = True numbers.append(n) except (TypeError, ValueError): print("!NUMBER EXPECTED - RETRY INPUT LINE") return numbers def read_continue_choice() -> bool: print("\nDO YOU WANT TO TRY AGAIN (1 FOR YES, 0 FOR NO) ? ") try: choice = int(input()) return choice == 1 except (ValueError, TypeError): return False def print_summary_report(running_correct: int) -> None: print() if running_correct > 10: print() print("I GUESSED MORE THAN 1/3 OF YOUR NUMBERS.") print("I WIN.\u0007") elif running_correct < 10: print("I GUESSED LESS THAN 1/3 OF YOUR NUMBERS.") print("YOU BEAT ME. CONGRATULATIONS *****") else: print("I GUESSED EXACTLY 1/3 OF YOUR NUMBERS.") print("IT'S A TIE GAME.") def main() -> None: print_intro() if read_instruction_choice(): print_instructions() a = 0 b = 1 c = 3 m = [[1] * 3 for _ in range(27)] k = [[9] * 3 for _ in range(3)] l = [[3] * 3 for _ in range(9)] # noqa: E741 continue_game = True while continue_game: l[0][0] = 2 l[4][1] = 2 l[8][2] = 2 z: float = 26 z1: float = 8 z2 = 2 running_correct = 0 for _round in range(1, 4): valid_numbers = False numbers = [] while not valid_numbers: print() numbers = read_10_numbers() valid_numbers = True for number in numbers: if number < 0 or number > 2: print("ONLY USE THE DIGITS '0', '1', OR '2'.") print("LET'S TRY AGAIN.") valid_numbers = False break print( "\n%-14s%-14s%-14s%-14s" % ("MY GUESS", "YOUR NO.", "RESULT", "NO. RIGHT") ) for number in numbers: s = 0 my_guess = 0 for j in range(0, 3): # What did the original author have in mind ? # The first expression always results in 0 because a is always 0 s1 = a * k[z2][j] + b * l[int(z1)][j] + c * m[int(z)][j] if s < s1: s = s1 my_guess = j elif s1 == s and random.random() >= 0.5: my_guess = j result = "" if my_guess != number: result = "WRONG" else: running_correct += 1 result = "RIGHT" m[int(z)][number] = m[int(z)][number] + 1 l[int(z1)][number] = l[int(z1)][number] + 1 k[int(z2)][number] = k[int(z2)][number] + 1 z = z - (z / 9) * 9 z = 3 * z + number print( "\n%-14d%-14d%-14s%-14d" % (my_guess, number, result, running_correct) ) z1 = z - (z / 9) * 9 z2 = number print_summary_report(running_correct) continue_game = read_continue_choice() print("\nTHANKS FOR THE GAME.") if __name__ == "__main__": main()