HW_SOURCE_FILE = __file__ def num_eights(x): """Returns the number of times 8 appears as a digit of x. >>> num_eights(3) 0 >>> num_eights(8) 1 >>> num_eights(88888888) 8 >>> num_eights(2638) 1 >>> num_eights(86380) 2 >>> num_eights(12345) 0 >>> from construct_check import check >>> # ban all assignment statements >>> check(HW_SOURCE_FILE, 'num_eights', ... ['Assign', 'AugAssign']) True """ "*** YOUR CODE HERE ***" def pingpong(n): """Return the nth element of the ping-pong sequence. >>> pingpong(8) 8 >>> pingpong(10) 6 >>> pingpong(15) 1 >>> pingpong(21) -1 >>> pingpong(22) -2 >>> pingpong(30) -2 >>> pingpong(68) 0 >>> pingpong(69) -1 >>> pingpong(80) 0 >>> pingpong(81) 1 >>> pingpong(82) 0 >>> pingpong(100) -6 >>> from construct_check import check >>> # ban assignment statements >>> check(HW_SOURCE_FILE, 'pingpong', ['Assign', 'AugAssign']) True """ "*** YOUR CODE HERE ***" def missing_digits(n): """Given a number a that is in sorted, increasing order, return the number of missing digits in n. A missing digit is a number between the first and last digit of a that is not in n. >>> missing_digits(1248) # 3, 5, 6, 7 4 >>> missing_digits(19) # 2, 3, 4, 5, 6, 7, 8 7 >>> missing_digits(1122) # No missing numbers 0 >>> missing_digits(123456) # No missing numbers 0 >>> missing_digits(3558) # 4, 6, 7 3 >>> missing_digits(35578) # 4, 6 2 >>> missing_digits(12456) # 3 1 >>> missing_digits(16789) # 2, 3, 4, 5 4 >>> missing_digits(4) # No missing numbers between 4 and 4 0 >>> from construct_check import check >>> # ban while or for loops >>> check(HW_SOURCE_FILE, 'missing_digits', ['While', 'For']) True """ "*** YOUR CODE HERE ***" def get_next_coin(coin): """Return the next coin. >>> get_next_coin(1) 5 >>> get_next_coin(5) 10 >>> get_next_coin(10) 25 >>> get_next_coin(2) # Other values return None """ if coin == 1: return 5 elif coin == 5: return 10 elif coin == 10: return 25 def count_coins(change): """Return the number of ways to make change using coins of value of 1, 5, 10, 25. >>> count_coins(15) 6 >>> count_coins(10) 4 >>> count_coins(20) 9 >>> count_coins(100) # How many ways to make change for a dollar? 242 >>> from construct_check import check >>> # ban iteration >>> check(HW_SOURCE_FILE, 'count_coins', ['While', 'For']) True """ "*** YOUR CODE HERE ***" from operator import sub, mul def make_anonymous_factorial(): """Return the value of an expression that computes factorial. >>> make_anonymous_factorial()(5) 120 >>> from construct_check import check >>> # ban any assignments or recursion >>> check(HW_SOURCE_FILE, 'make_anonymous_factorial', ['Assign', 'AugAssign', 'FunctionDef', 'Recursion']) True """ return 'YOUR_EXPRESSION_HERE' def print_move(origin, destination): """Print instructions to move a disk.""" print("Move the top disk from rod", origin, "to rod", destination) def move_stack(n, start, end): """Print the moves required to move n disks on the start pole to the end pole without violating the rules of Towers of Hanoi. n -- number of disks start -- a pole position, either 1, 2, or 3 end -- a pole position, either 1, 2, or 3 There are exactly three poles, and start and end must be different. Assume that the start pole has at least n disks of increasing size, and the end pole is either empty or has a top disk larger than the top n start disks. >>> move_stack(1, 1, 3) Move the top disk from rod 1 to rod 3 >>> move_stack(2, 1, 3) Move the top disk from rod 1 to rod 2 Move the top disk from rod 1 to rod 3 Move the top disk from rod 2 to rod 3 >>> move_stack(3, 1, 3) Move the top disk from rod 1 to rod 3 Move the top disk from rod 1 to rod 2 Move the top disk from rod 3 to rod 2 Move the top disk from rod 1 to rod 3 Move the top disk from rod 2 to rod 1 Move the top disk from rod 2 to rod 3 Move the top disk from rod 1 to rod 3 """ assert 1 <= start <= 3 and 1 <= end <= 3 and start != end, "Bad start/end" "*** YOUR CODE HERE ***"