def test_load(self):
b = Board(2, 2)
b.load([[10, 20], ['a', False]])
self.assertEqual(b[0][0], 10)
self.assertEqual(b[0][1], 20)
self.assertEqual(b[1][0], 'a')
self.assertEqual(b[1][1], False)
def size_test():
b = Board(3, 5)
assert b.nrows == 3
assert b.ncols == 5
assert b.size == 15
b._setupUI()
assert b.nrows == 3
assert b.ncols == 5
assert b.size == 15
def __init__(self, t_map, state, path: list):
self.t_map = t_map
self.state = state
self.path = path[1:]
self.start = False
self.depth = len(path)
self.cost = 0
self.board = Board(len(t_map), len(t_map[0]))
self.board.on_timer = self.ontimer
self.board.on_key_press = self.onkey
self.board.start_timer(630)
def test_copy(self):
b = Board(2, 3)
for i in range(b.nrows):
for j in range(b.ncols):
b[i][j] = (i + 1) * (j + 5)
bc = b.copy()
self.assertEqual(len(bc), b.nrows)
for i in range(len(bc)):
self.assertEqual(len(bc[i]), b.ncols)
for j in range(len(bc[i])):
self.assertEqual(bc[i][j], b[i][j])
def __init__(self, simulation_mode=False):
""":cvar
"""
env = get_environment("blobwar")()
env.seed(10)
self.images = {1: "blob_blue", 2: "blob_orange"}
self.images_selected = {
1: "blob_blue_selected",
2: "blob_orange_selected"
}
self.images_candidates = {
1: "blob_blue_candidate",
2: "blob_orange_candidate"
}
self.env = env
self.human_player = Human()
try:
self.ai_player_1 = PPO(self.env, size=self.env.core.board.shape[0])
except Exception as e:
print("PPO not yet trained for : ", self.env.core.board.shape[0])
self.ai_player_1 = GreedyPlayer()
self.ai_player_2 = GreedyPlayer()
self.player1 = self.player2 = None
if simulation_mode:
self.state = GameState.WAITING_FIRST_CLICK
self.player1 = self.ai_player_1
self.player2 = self.player1
return
self.game = Board(self.env.core.board.shape[0],
self.env.core.board.shape[1])
self.game.cell_size = 70
self.game.cell_spacing = 1
self.game.fill(None)
self.game.margin_color = self.game.grid_color = "wheat4"
self.game.cell_color = "white"
self.game.title = "Blobwar"
self.game.create_output(font_size=11)
self.state = GameState.GAME_OVER
self.move_start_case = None
self.move_candidates_case = []
def test_fill(self):
b = Board(3, 3)
b.fill('ZZZ', row=1)
self.assertEqual(b[1].count('ZZZ'), 3)
b.fill(1.5, col=2)
self.assertEqual(b[0][2], 1.5)
self.assertEqual(b[1][2], 1.5)
self.assertEqual(b[2][2], 1.5)
b.fill(-3)
for i in range(b.nrows):
self.assertTrue(all(v == -3 for v in b[i]))
class Visualize():
def __init__(self, t_map, state, path: list):
self.t_map = t_map
self.state = state
self.path = path[1:]
self.start = False
self.depth = len(path)
self.cost = 0
self.board = Board(len(t_map), len(t_map[0]))
self.board.on_timer = self.ontimer
self.board.on_key_press = self.onkey
self.board.start_timer(630)
def ontimer(self):
if len(self.path) == 0:
print(f"Answer's Depth: {self.depth}")
print(f"Answer's Cost: {self.cost}")
exit(0)
if not self.start:
return
self.board.clear()
self.action = self.path[0]
del self.path[0]
self.state = act(self.t_map, self.state, self.action)
# Update Path Cost!
self.cost += eval(
self.t_map[self.state['bot'][1]][self.state['bot'][0]])
for y, row in enumerate(self.t_map):
for x, cell in enumerate(row):
if 'x' in cell:
self.board[y][x] = 'x'
self.board[self.state['bot'][1]][self.state['bot'][0]] = 'r'
for b_x, b_y in self.state['butters']:
self.board[b_y][b_x] = 'b'
for g_x, g_y in self.state['goals']:
self.board[g_y][g_x] = 'g'
def onkey(self, key):
if key == "Return":
self.start = True
def render(self):
self.board.show()
def title_test():
b = Board(2, 2)
_value = "qwertyu 213213 dsdadasd~...."
b.title = _value
assert b.title == _value
b._setupUI()
assert b.title == _value
assert b._root.title() == _value
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
assert b.title == _value
assert b._root.title() == _value
def test_cell_size(self):
b = Board(4, 9)
_value = (34, 55)
b.cell_size = _value
self.assertEqual(b.cell_size[0], _value[0])
self.assertEqual(b.cell_size[1], _value[1])
b._setupUI()
self.assertEqual(b.cell_size[0], _value[0])
self.assertEqual(b.cell_size[1], _value[1])
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
self.assertEqual(b.cell_size[0], _value[0])
self.assertEqual(b.cell_size[1], _value[1])
b2 = Board(42, 99)
_value = 1
b2.cell_size = _value
self.assertEqual(b2.cell_size[0], _value)
self.assertEqual(b2.cell_size[1], _value)
b2._setupUI()
self.assertEqual(b2.cell_size[0], _value)
self.assertEqual(b2.cell_size[1], _value)
b2.on_timer = lambda: b.close()
b2.start_timer(TIME_TO_CLOSE)
b2.show()
self.assertEqual(b2.cell_size[0], _value)
self.assertEqual(b2.cell_size[1], _value)
c = random.randint(0, FIELD_WIDTH - 1) # Random collumn
if field[r][c] is None: # It must be an empty place
field[r][c] = "fruit"
break
def setup():
global snake, lastkey
w2 = FIELD_WIDTH // 2 # field center
h2 = FIELD_HEIGHT // 2
field.fill(None)
snake = [(h2, w2), (h2, w2 + 1)] # Initial snake position
for pos in snake:
field[pos[0]][pos[1]] = 'body' # Draw the snake
fruit_random_position()
lastkey = "Left" # starts moving to the left
field.start_timer(300) # 300 ms
field = Board(FIELD_HEIGHT, FIELD_WIDTH)
field.cell_size = BLOCK_SIZE
field.title = "Snake game"
field.cursor = None # Hide the cursor
field.margin = field.cell_spacing = 1
field.grid_color = field.margin_color = "dark sea green"
field.cell_color = "PaleGreen4"
field.on_key_press = kbd_fn
field.on_timer = timer_fn
setup()
field.show()
def cell_spacing_test():
b = Board(1, 1)
_value = 7
b.cell_spacing = _value
assert b.cell_spacing == _value
b._setupUI()
assert b.cell_spacing == _value
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
assert b.cell_spacing == _value
class BlobwarGui:
def __init__(self, simulation_mode=False):
""":cvar
"""
env = get_environment("blobwar")()
env.seed(10)
self.images = {1: "blob_blue", 2: "blob_orange"}
self.images_selected = {
1: "blob_blue_selected",
2: "blob_orange_selected"
}
self.images_candidates = {
1: "blob_blue_candidate",
2: "blob_orange_candidate"
}
self.env = env
self.human_player = Human()
try:
self.ai_player_1 = PPO(self.env, size=self.env.core.board.shape[0])
except Exception as e:
print("PPO not yet trained for : ", self.env.core.board.shape[0])
self.ai_player_1 = GreedyPlayer()
self.ai_player_2 = GreedyPlayer()
self.player1 = self.player2 = None
if simulation_mode:
self.state = GameState.WAITING_FIRST_CLICK
self.player1 = self.ai_player_1
self.player2 = self.player1
return
self.game = Board(self.env.core.board.shape[0],
self.env.core.board.shape[1])
self.game.cell_size = 70
self.game.cell_spacing = 1
self.game.fill(None)
self.game.margin_color = self.game.grid_color = "wheat4"
self.game.cell_color = "white"
self.game.title = "Blobwar"
self.game.create_output(font_size=11)
self.state = GameState.GAME_OVER
self.move_start_case = None
self.move_candidates_case = []
def __player_num__(self, num):
return min(2 - num, 2) # 1=>1, -1 =>2
def initialize(self, game_type=GameType.HUMAN_AI):
""":cvar
Initiliaze game and set automove if current player is not human
"""
if game_type == GameType.HUMAN_AI:
self.player1 = self.human_player
self.player2 = self.ai_player_1
elif game_type == GameType.HUMAN_HUMAN:
self.player1 = self.human_player
self.player2 = self.human_player
else:
self.player1 = self.ai_player_1
self.player2 = self.ai_player_2
self.env.core.reset()
self.state = GameState.WAITING_FIRST_CLICK
self.move_start_case = None
self.move_candidates_case = []
self.render()
if not isinstance(self.player1, Human) and not isinstance(
self.player2, Human):
self.autoplay()
else:
self.state = GameState.WAITING_FIRST_CLICK
self.print_status()
if not isinstance(self.player1, Human):
movement = self.player1.choose_action(self.env)
self.env.core.apply_movement(movement)
self.print_status()
self.render()
def render(self):
for x in range(self.env.core.board.shape[0]):
for y in range(self.env.core.board.shape[1]):
if self.env.core.board[x][y] == 0:
self.game[x][y] = None
continue
self.game[x][y] = self.images[self.__player_num__(
self.env.core.board[x][y])]
if self.move_start_case is not None:
self.render_selected()
def fnkbd(self, key):
if key == "Escape":
self.game.close()
elif key == "F2":
self.initialize(game_type=GameType.HUMAN_AI)
elif key == "F3":
self.initialize(game_type=GameType.HUMAN_HUMAN)
elif key == "F4":
self.initialize(game_type=GameType.AI_AI)
def setup(self):
self.game.on_mouse_click = self.on_click
self.game.on_key_press = self.fnkbd
self.game.on_start = lambda: self.initialize()
self.game.show()
def on_click(self, btn, x, y):
current_player = self.player1 if self.__player_num__(
self.env.core.current_player) == 1 else self.player2
if not isinstance(current_player, Human):
return
if self.state == GameState.GAME_OVER:
return
if self.state == GameState.WAITING_FIRST_CLICK:
self.__on_first_click(btn, x, y)
return
if self.state == GameState.WAITING_SECOND_CLICK:
self.__on_second_click(btn, x, y)
return
def __on_first_click(self, btn, x, y):
if self.env.core.board[x][y] == 0:
return
current_player = self.__player_num__(self.env.core.current_player)
if self.__player_num__(self.env.core.board[x][y]) != current_player:
return
else:
self.move_start_case = (x, y)
self.move_candidates_case = self.env.core.neighbours(x, y)
self.render()
self.state = GameState.WAITING_SECOND_CLICK
def __on_second_click(self, btn, x, y):
current_player = self.__player_num__(self.env.core.current_player)
if (x, y) == self.move_start_case:
self.move_start_case = None
self.move_candidates_case = []
self.render()
self.state = GameState.WAITING_FIRST_CLICK
return
movement = [self.move_start_case, (x, y)]
if self.env.core.check_move(movement):
self.env.core.apply_movement(movement)
self.print_status()
(x_start, y_start) = self.move_start_case
self.game[x_start][y_start] = self.images[current_player]
self.move_start_case = None
self.move_candidates_case = []
self.state = GameState.WAITING_FIRST_CLICK
self.render()
###Automatic play
def after_move():
current_player = self.player1 if self.__player_num__(
self.env.core.current_player) == 1 else self.player2
if self.env.core.game_over():
self.state = GameState.GAME_OVER
winner_id = self.env.core.leading_player()
self.render()
self.print_status()
return
self.print_status()
if not isinstance(current_player, Human):
movement = current_player.choose_action(self.env)
# self.pause(1000)
self.env.core.apply_movement(movement)
self.print_status()
else:
if len(self.env.core.movements()) == 0:
self.env.core.apply_movement(None)
self.print_status()
after_move()
self.render()
else:
x_old, y_old = self.move_start_case
self.game[x_old][y_old] = self.images[current_player]
self.move_candidates_case = []
if self.game[x][y] == self.images[current_player]:
self.move_start_case = x, y
self.move_candidates_case = self.env.core.neighbours(x, y)
self.state = GameState.WAITING_SECOND_CLICK
else:
self.move_start_case = None
self.move_candidates_case = []
self.state = GameState.WAITING_FIRST_CLICK
self.render()
return
if self.env.core.game_over():
self.state = GameState.GAME_OVER
self.print_status()
def render_selected(self):
if self.move_start_case is None:
return
current_player_num = self.__player_num__(self.env.core.current_player)
x, y = self.move_start_case
self.game[x][y] = self.images_selected[current_player_num]
for (x_cand, y_cand) in self.move_candidates_case:
self.game[x_cand][y_cand] = self.images_candidates[
current_player_num]
def autoplay(self):
""":cvar
Game Autoplay between two IA players
"""
while self.state != GameState.GAME_OVER:
current_player = self.player1 if self.__player_num__(
self.env.core.current_player) == 1 else self.player2
movement = current_player.choose_action(self.env)
self.env.core.apply_movement(movement)
if self.env.core.game_over():
self.state = GameState.GAME_OVER
self.print_status()
self.pause(50)
self.render()
def simulate(self):
""":cvar
Game Autoplay between two IA players
"""
while self.state != GameState.GAME_OVER:
current_player = self.player1
movement = current_player.choose_action(self.env)
self.env.core.apply_movement(movement)
if self.env.core.game_over():
self.state = GameState.GAME_OVER
self.env.core.reset()
def print_status(self):
current_player, current_player_color = (
self.player1, PLAYER1_COLOR) if self.__player_num__(
self.env.core.current_player) == 1 else (self.player2,
PLAYER2_COLOR)
player0_value = int(self.env.core.player_value(1))
# scores=f" {self.player1.name}({PLAYER1_COLOR}) : {player0_value} , {self.player2.name}({PLAYER2_COLOR}) : {-1*player0_value}"
header = f"\t{self.player1.name}({PLAYER1_COLOR}): {player0_value} VS {self.player2.name}({PLAYER2_COLOR}): {-player0_value}"
restart_message = "\n \tF2:Human vs AI F3:Human vs Human F4:AI vs AI "
if self.env.core.game_over():
winner_id = self.env.core.leading_player()
winner = self.__player_num__(winner_id)
winner_player = self.player1 if winner == 1 else self.player2
winner_color = PLAYER1_COLOR if winner == 1 else PLAYER2_COLOR
if player0_value == 0:
current_message = f"\tDraw"
else:
current_message = f"\t{winner_player.name}({winner_color}) won!!"
else:
current_message = f"\t{current_player.name}({current_player_color}) playing ..."
text = header + "\n" + current_message + "\n" + restart_message
self.game.print(text)
def pause(self, millis):
self.game.pause(millis)
previous_row = r # Save last position
previous_col = c
def newgame():
global previous_row, previous_col, reversed_cards, match_count, attempts_count
previous_row = previous_col = reversed_cards = match_count = attempts_count = 0
game[0][0] = game[0][1] = 1
game[0][2] = game[0][3] = 2
game[1][0] = game[1][1] = 3
game[1][2] = game[1][3] = 4
game[2][0] = game[2][1] = 5
game[2][2] = game[2][3] = 6
game[3][0] = game[3][1] = 7
game[3][2] = game[3][3] = 8
game.shuffle()
game.print(MSG)
game = Board(4, 4)
game.cell_size = 130
game.margin_color = game.grid_color = "wheat1"
game.cell_color = "wheat3"
game.cell_spacing = 2
game.title = "Memory Game"
game.create_output(background_color="wheat4", color="white")
game.on_mouse_click = fnmouse
game.on_key_press = fnkbd
game.on_start = newgame
game.show()
from game2dboard import Board
b = Board(8, 8)
b.title = "Playground!"
b.margin = 21
b.cell_size = 74
b.cell_spacing = 1
b.background_image = "chess"
b.create_output(color='gray20', background_color='AntiqueWhite3', font_size=10)
b.on_mouse_click = lambda btn, r, c : b.print("Clicked on [{}][{}]".format(r, c))
b.print("Click me")
b.show()
def margin_test():
b = Board(7, 1)
_value = 19
b.margin = _value
assert b.margin == _value
b._setupUI()
assert b.margin == _value
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
assert b.margin == _value
def margin_color_test():
b = Board(10, 10)
_value = "dark gray"
b.margin_color = _value
assert b.margin_color == _value
b._setupUI()
assert b.margin_color == _value
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
assert b.margin_color == _value
from game2dboard import Board b = Board(2, 2) b[0][0] = 5 b[1][1] = 10 print(b) a = b.copy() print(a) b.title = "Hi!" b.grid_color = None b.on_mouse_click = lambda b, r, c: print(type(b), type(r), type(c)) b.show()
from game2dboard import Board
def fntimer():
b.shuffle()
b.start_timer(500)
b = Board(3, 12)
b[1][0] = 'H'
b[1][1] = 'e'
b[1][2] = 'l'
b[1][3] = 'l'
b[1][4] = 'o'
b[1][5] = 'comma'
b[1][6] = 'W'
b[1][7] = 'o'
b[1][8] = 'r'
b[1][9] = 'l'
b[1][10] = 'd'
b[1][11] = 'excl'
b.cell_size = (80, 100)
b.title = "WTF????"
b.margin = 10
b.cell_spacing = 3
b.grid_color = b.margin_color = "AntiqueWhite3"
b.cell_color = "gray20"
b.start_timer(2000)
b.on_timer = fntimer
b.show()
b[row][col] = IMGID if not b[row][col] else None
elif btn == 3:
b[row][col] = "fruit.png"
def timerfn():
b.print(datetime.datetime.now().strftime("[H]: Help %H:%M:%S"))
def startfn():
b[0][0] = 12
b[0][1] = "Hello"
b[0][2] = b[4][1] = IMGID
b[3][6] = "fruit.png"
b = Board(5, 15)
b.title = "Hello, World!"
b.margin = 10
b.cell_spacing = 6
b.cell_size = (50, 40)
b.margin_color = b.grid_color = "AntiqueWhite4"
b.cell_color = "AntiqueWhite1"
b.on_start = startfn
b.on_key_press = kbdfn
b.on_mouse_click = mousefn
b.on_timer = timerfn
b.start_timer(1000)
b.create_output(color='gray20', background_color='AntiqueWhite3', font_size=10)
b.show()
from game2dboard import Board b = Board(8, 8) b.title = "Playground!" b.margin = 0 b.cell_spacing = 1 b.cell_size = 80 b.margin_color = None b.grid_color = "red" b.cell_color = "green" # b.background_image = "chess" b.create_output(color='gray20', background_color='AntiqueWhite3', font_size=10) b.show()
from game2dboard import Board
def mouse_fn(btn, row, col): # mouse calback function
b[row][col] = 1 if not b[row][col] else 0
b = Board(3, 4) # 3 rows, 4 columns, filled w/ None
b[0][0] = 0
b.title = "Click me!"
b.cell_size = 120
b.cell_color = "honeydew"
b.on_mouse_click = mouse_fn
b.show()
def cursor_test():
b = Board(1, 20)
_value = "watch"
b.cursor = _value
assert b.cursor == _value
b._setupUI()
assert b.cursor == _value
b.on_timer = lambda: b.close()
b.start_timer(TIME_TO_CLOSE)
b.show()
assert b.cursor == _value
