def play ():
grid = []
util.create_grid (grid)
add_block (grid)
add_block (grid)
won_message = False
while (True):
util.print_grid (grid)
key = input ("Enter a direction:\n")
if (key in ['x', 'u', 'd', 'l', 'r']):
saved_grid = util.copy_grid (grid)
if (key == 'x'):
return
elif (key == 'u'):
push.push_up (grid)
elif (key == 'd'):
push.push_down (grid)
elif (key == 'r'):
push.push_right (grid)
elif (key == 'l'):
push.push_left (grid)
if util.check_lost (grid):
print ("Game Over!")
return
elif util.check_won (grid) and not won_message:
print ("Won!")
won_message = True
if not util.grid_equal (saved_grid, grid):
add_block (grid)
def play ():
"""generate grid and play game interactively"""
# create grid
grid = []
util.create_grid (grid)
# add 2 starting random numbers
add_block (grid)
add_block (grid)
won_message = False
while (True):
util.print_grid (grid)
key = input ("Enter a direction:\n")
if (key in ['x', 'u', 'd', 'l', 'r']):
# make a copy of the grid
saved_grid = util.copy_grid (grid)
if (key == 'x'):
# quit the game
return
# manipulate the grid depending on input
elif (key == 'u'):
push.push_up (grid)
elif (key == 'd'):
push.push_down (grid)
elif (key == 'r'):
push.push_right (grid)
elif (key == 'l'):
#print(grid)
push.push_left (grid)
#print(grid)
# check for a grid with no more gaps or legal moves
if util.check_lost (grid):
print ("Game Over!")
return
# check for a grid with the final number
elif util.check_won (grid) and not won_message:
print ("Won!")
won_message = True
# finally add a random block if the grid has changed
if not util.grid_equal (saved_grid, grid):
add_block (grid)
def play():
"""generate grid and play game interactively"""
# create grid
grid = []
util.create_grid(grid)
# add 2 starting random numbers
add_block(grid)
add_block(grid)
won_message = False
while (True):
util.print_grid(grid)
key = input("Enter a direction:\n")
if (key in ['x', 'u', 'd', 'l', 'r']):
# make a copy of the grid
saved_grid = util.copy_grid(grid)
if (key == 'x'):
# quit the game
return
# manipulate the grid depending on input
elif (key == 'u'):
push.push_up(grid)
elif (key == 'd'):
push.push_down(grid)
elif (key == 'r'):
push.push_right(grid)
elif (key == 'l'):
push.push_left(grid)
# check for a grid with no more gaps or legal moves
if util.check_lost(grid):
print("Game Over!")
return
# check for a grid with the final number
elif util.check_won(grid) and not won_message:
print("Won!")
won_message = True
# finally add a random block if the grid has changed
if not util.grid_equal(saved_grid, grid):
add_block(grid)
def play ():
# makes the game and plays
# makes grid
grid = []
util.create_grid (grid)
# adds 2 random numbers to start with
add_block (grid)
add_block (grid)
won_message = False
while (True):
util.print_grid (grid)
key = input ("Enter a direction:\n")
if (key in ['x', 'u', 'd', 'l', 'r']):
# copies the grid
saved_grid = util.copy_grid (grid)
if (key == 'x'):
# end the game
return
# edit the grid depending on the input
elif (key == 'u'):
push.push_up (grid)
elif (key == 'd'):
push.push_down (grid)
elif (key == 'r'):
push.push_right (grid)
elif (key == 'l'):
push.push_left (grid)
# check for a grid with no more gaps or legal moves
if util.check_lost (grid):
print ("Game Over!")
return
# check for a grid with the last number
elif util.check_won (grid) and not won_message:
print ("Won!")
won_message = True
# lastly add a random block if the grid has changed
if not util.grid_equal (saved_grid, grid):
add_block (grid)
def run_test (test):
if test == 0:
grid = []
util.create_grid (grid)
print(grid)
print (len (grid))
print (len (grid[0]))
print (len (grid[1]))
print (len (grid[2]))
print (len (grid[3]))
print (grid[0][0])
print (grid[1][2])
print (grid[2][1])
print (grid[3][3])
elif test == 1:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
util.print_grid (grid)
elif test == 2:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
util.print_grid (grid)
elif test == 3:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_lost (grid))
elif test == 4:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 5:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 6:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 7:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 8:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_won (grid))
elif test == 9:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_won (grid))
elif test == 10:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_won (grid))
elif test == 11:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_won (grid))
elif test == 12:
grid = [[2,32,2,4],[4,2,16,2],[8,0,8,4],[2,0,4,2]]
print (util.check_won (grid))
elif test == 13:
grid = [[2,2,8,0],[0,8,16,0],[16,32,8,8],[2,8,4,4]]
print (util.check_won (grid))
elif test == 14:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 15:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 16:
grid = [[128,4,0,0],[8,4,2,0],[4,2,0,2],[2,0,0,0]]
print (util.check_won (grid))
elif test == 17:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
test_grid = util.copy_grid (grid)
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
grid[0][0] = 64
grid[1][2] = 64
grid[3][3] = 64
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
elif test == 18:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 19:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,4],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 20:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.grid_equal (grid1, grid2))
elif test == 21:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,4,8,16],[32,64,128,256],[512,1024,2048,4096],[8192,16384,32768,65536]]
print (util.grid_equal (grid1, grid2))
elif test == 22:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.grid_equal (grid1, grid2))
def play():
"""generate grid and play game interactively"""
# create grid
grid = []
util.create_grid(grid)
# add 2 starting random numbers
add_block(grid)
add_block(grid)
# initially set 'won_message' to False. 'won_message' is used to determine if the user has been alerted that they won as to not keep printing the winning message if they continue playing.
won_message = False
# start
while (True):
# Clear the terminal so that the game seems more interactive
os.system('cls' if os.name == 'nt' else 'clear')
# print the current state of the grid
util.print_grid(grid)
# set 'key' to a user input which represents the move they would like to do
key = input("Enter a direction:\n")
# check if 'key' is one of the available options
if (key in ['x', 'u', 'd', 'l', 'r']):
# make a copy of the grid
saved_grid = util.copy_grid(grid)
if (key == 'x'):
# quit the game
return
# manipulate the grid depending on input
elif (key == 'u'):
push.push_up(grid)
elif (key == 'd'):
push.push_down(grid)
elif (key == 'r'):
push.push_right(grid)
elif (key == 'l'):
push.push_left(grid)
# check for a grid with no more gaps or legal moves
if util.check_lost(grid):
print("Game Over!")
return
# check for a grid with the final number
elif not won_message and util.check_won(grid):
print("Won!")
won_message = True
# Clear the terminal so that the game seems more interactive
os.system('cls' if os.name == 'nt' else 'clear')
# print the current state of the grid
util.print_grid(grid)
if input('Would you like to keep playing? (Y)es or (N)o: '
).lower() == 'n':
print('Game Over!')
return
# finally add a random block if the grid has changed
if not util.grid_equal(saved_grid, grid):
add_block(grid)
# check for a grid with no more gaps or legal moves
if util.check_lost(grid):
# Clear the terminal so that the game seems more interactive
os.system('cls' if os.name == 'nt' else 'clear')
# print last state of grid
util.print_grid(grid)
print("Game Over!")
return
def run_test (test):
if test == 0:
grid = []
util.create_grid (grid)
print (len (grid))
print (len (grid[0]))
print (len (grid[1]))
print (len (grid[2]))
print (len (grid[3]))
print (grid[0][0])
print (grid[1][2])
print (grid[2][1])
print (grid[3][3])
elif test == 1:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
util.print_grid (grid)
elif test == 2:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
util.print_grid (grid)
elif test == 3:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_lost (grid))
elif test == 4:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 5:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 6:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 7:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 8:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_won (grid))
elif test == 9:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_won (grid))
elif test == 10:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_won (grid))
elif test == 11:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_won (grid))
elif test == 12:
grid = [[2,32,2,4],[4,2,16,2],[8,0,8,4],[2,0,4,2]]
print (util.check_won (grid))
elif test == 13:
grid = [[2,2,8,0],[0,8,16,0],[16,32,8,8],[2,8,4,4]]
print (util.check_won (grid))
elif test == 14:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 15:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 16:
grid = [[128,4,0,0],[8,4,2,0],[4,2,0,2],[2,0,0,0]]
print (util.check_won (grid))
elif test == 17:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
test_grid = util.copy_grid (grid)
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
grid[0][0] = 64
grid[1][2] = 64
grid[3][3] = 64
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
elif test == 18:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 19:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,4],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 20:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.grid_equal (grid1, grid2))
elif test == 21:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,4,8,16],[32,64,128,256],[512,1024,2048,4096],[8192,16384,32768,65536]]
print (util.grid_equal (grid1, grid2))
elif test == 22:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.grid_equal (grid1, grid2))
def play(agent='human', record=True, filename='human_games.dat', delay=1):
"""generate grid and play game interactively"""
# create grid
grid = []
util.create_grid(grid)
# add 2 starting random numbers
add_block(grid)
add_block(grid)
won_message = False
score = 0
trajectory = []
saved_grid = [[]]
try:
while (True):
util.print_grid(grid)
if agent == HUMAN:
key = input("Enter a direction:\n")
if (key == 'x'):
# quit the game
break
try:
key = util.action_num_to_letter(int(key))
except:
continue
elif agent == SVM or agent == NN:
if util.grid_equal(saved_grid,
grid): #previous action not allowed
#use pior agent since model is deterministic given the same input
key = agents.random_agent_with_prior()
print("Prior")
else:
print("Model")
model_agent = agents.Model()
model_agent.load_model(filename="models/" + agent +
".joblib")
key = model_agent.predict([np.array(grid).flatten()])
key = util.action_num_to_letter(int(key[0]))
print(key)
elif agent == RANDOM:
key = agents.random_agent()
elif agent == RANDOM_WITH_PRIOR:
key = agents.random_agent_with_prior()
if (key in ['u', 'd', 'l', 'r']):
# make a copy of the grid
saved_grid = util.copy_grid(grid)
# manipulate the grid depending on input
if (key == 'u'):
_, add_score = push.push_up(grid)
elif (key == 'd'):
_, add_score = push.push_down(grid)
elif (key == 'r'):
_, add_score = push.push_right(grid)
elif (key == 'l'):
_, add_score = push.push_left(grid)
score += add_score
print("Score: ", score)
if record and key in 'ludr':
data_instance = np.array(saved_grid).flatten()
data_instance = np.append(
data_instance,
[util.action_letter_to_num(key), add_score, score])
data_instance = np.append(data_instance,
np.array(grid).flatten())
trajectory.append(data_instance)
# check for a grid with no more gaps or legal moves
if util.check_lost(grid):
print("Game Over!")
break
# check for a grid with the final number
elif util.check_won(grid) and not won_message:
print("Won!")
won_message = True
# finally add a random block if the grid has changed
if not util.grid_equal(saved_grid, grid):
add_block(grid)
if agent != HUMAN:
time.sleep(delay) #in seconds
finally:
if record:
util.save_game(trajectory,
filename="games/" + agent.lower() + "/" +
agent.lower())
def run_test (test):
if test == 0:
grid = []
util.create_grid (grid)
print (len (grid))
print (len (grid[0]))
print (len (grid[1]))
print (len (grid[2]))
print (len (grid[3]))
print (grid[0][0])
print (grid[1][2])
print (grid[2][1])
print (grid[3][3])
elif test == 1:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
util.print_grid (grid)
elif test == 2:
grid = [[2 File "/home/rngkum001/python/util.py", line 21
print("|")
^
IndentationError: unindent does not match any outer indentation level
rngkum001@sl-dual-78:~/python$ python3 question2.py > output.txt
Traceback (most recent call last):
,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
util.print_grid (grid)
elif test == 3:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_lost (grid))
elif test == 4:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 5:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_lost (grid))
elif test == 6:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 7:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.check_lost (grid))
elif test == 8:
grid = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.check_won (grid))
elif test == 9:
grid = [[2,0,2,0],[0,4,0,8],[0,16,0,128],[2,2,2,2]]
print (util.check_won (grid))
elif test == 10:
grid = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.check_won (grid))
elif test == 11:
grid = [[4,16,2,4],[2,4,16,2],[2,4,8,4],[4,8,4,2]]
print (util.check_won (grid))
elif test == 12:
grid = [[2,32,2,4],[4,2,16,2],[8,0,8,4],[2,0,4,2]]
print (util.check_won (grid))
elif test == 13:
grid = [[2,2,8,0],[0,8,16,0],[16,32,8,8],[2,8,4,4]]
print (util.check_won (grid))
elif test == 14:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 15:
grid = [[64,32,32,2],[8,4,2,0],[4,2,0,0],[2,0,0,0]]
print (util.check_won (grid))
elif test == 16:
grid = [[128,4,0,0],[8,4,2,0],[4,2,0,2],[2,0,0,0]]
print (util.check_won (grid))
elif test == 17:
grid = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
test_grid = util.copy_grid (grid)
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
grid[0][0] = 64
grid[1][2] = 64
grid[3][3] = 64
print (grid[0][0],test_grid[0][0])
print (grid[1][2],test_grid[1][2])
print (grid[3][3],test_grid[3][3])
elif test == 18:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 19:
grid1 = [[4,2,8,2],[2,8,16,8],[16,32,8,4],[4,8,4,2]]
grid2 = [[4,2,8,2],[2,8,16,4],[16,32,8,4],[4,8,4,2]]
print (util.grid_equal (grid1, grid2))
elif test == 20:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
print (util.grid_equal (grid1, grid2))
elif test == 21:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,4,8,16],[32,64,128,256],[512,1024,2048,4096],[8192,16384,32768,65536]]
print (util.grid_equal (grid1, grid2))
elif test == 22:
grid1 = [[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]]
grid2 = [[2,2,2,2],[2,2,2,2],[2,2,2,2],[2,2,2,2]]
print (util.grid_equal (grid1, grid2))
