def on_execute(self):
self.on_init()
pygame.time.set_timer(EVENT_TICK, 20)
running = True
playing = False
fastest = False
while running:
self.on_render()
if fastest:
event = pygame.event.poll()
fastest = self.on_loop()
else:
event = pygame.event.wait()
if event.type == QUIT or (event.type == KEYDOWN and event.key == K_ESCAPE):
running = False
elif event.type == KEYDOWN and event.key == K_SPACE:
self.on_loop()
elif event.type == EVENT_TICK:
self.tick_handler()
if playing:
playing = self.on_loop()
elif event.type == KEYDOWN and event.key == K_p:
playing = not playing
elif event.type == KEYDOWN and event.key == K_r:
self.state = GameState((20, 20))
self.state.apple_pos = (22, 20)
elif event.type == KEYDOWN and event.key == K_f:
fastest = not fastest
playing = False
pygame.quit()
def __init__(self, step_handler: Callable[[GameState], int],
tick_handler: Callable[[], None] = lambda: None) -> None:
self.step_handler = step_handler
self.tick_handler = tick_handler
self.state = GameState((20, 20))
self.state.apple_pos = (22, 20)
def test_deepcopy(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
decks = [[slimer], [scuttler]]
draft = fix_draft(*decks)
state = GameState(draft)
state.open_next_turn()
copy_state = deepcopy(state)
self.assertEqual(
copy_state.current_player().get_hand()[0].instance_id(),
state.current_player().get_hand()[0].instance_id())
def main():
session = GameState()
ui = Ui(session)
ui.step()
time.sleep(2)
while session.step():
ui.step()
print(session.get_score())
time.sleep(1)
ui.close()
def play_match(self):
self._play_draft()
draftphase = fix_draft(self._draft_decks[self._ais[0]], self._draft_decks[self._ais[1]])
game = GameState(draftphase)
for turn in range(100):
for ai in self._ais:
game.open_next_turn()
actions = ai.play(game)
for action in actions:
game.perform_action(action)
if game.has_winner():
print('Winner!', game.winner())
return game.winner()
def game() -> None:
"""Represents a single game of craps."""
print("Welcome to craps!")
balance = 1000
state = GameState(balance)
print(f"You start with ${balance}")
print("-" * 32)
while True:
if state.balance <= 0 and not state.bets:
print("You're broke! Game over.")
break
round(state)
print("-" * 32)
def test_summon(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
decks = [[slimer], [scuttler]]
draft = fix_draft(*decks)
state = GameState(draft)
state.open_next_turn()
first_player = state.get_first_player()
second_player = state.get_second_player()
self.assertEqual(first_player.deck_size(), 0)
self.assertEqual(second_player.deck_size(), 0)
summon = Summon(first_player.from_hand(slimer))
state.perform_action(summon)
self.assertEqual(len(first_player.board()), 1)
self.assertEqual(first_player.board()[0].name(), slimer.name())
# rune effect of trying to draw 4, +1 from slimer
self.assertEqual(first_player.health(), 11)
def compute_score(step_handler: Callable[[GameState], int]) -> float:
state = GameState((20, 20))
step_count = 0
reward = 0
distance_to_apple = state.distance_to_apple()
while step_count <= distance_to_apple * 2 * math.sqrt(state.length):
state.direction = step_handler(state)
step_count += 1
self_intersecting, has_grown = state.move()
if not self_intersecting:
return reward
elif has_grown:
reward += distance_to_apple / math.sqrt(step_count) * math.sqrt(
state.length)
step_count = 0
distance_to_apple = state.distance_to_apple()
return reward
def test_charge(self):
slimer = Constants.CARDS[1]
wings = Constants.CARDS[140]
scuttler = Constants.CARDS[2]
decks = [[wings] + [slimer] * 6, [scuttler] * 7]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(5):
state.open_next_turn()
self.assertEqual(first_player.current_mana(), 3)
state.perform_action(Summon(first_player.from_hand(slimer)))
slimer_creature = first_player.get_creature_by_index(0)
self.assertEqual(first_player.get_creature_by_index(0),
slimer_creature)
state.perform_action(
Use(first_player.from_hand(wings), slimer_creature))
# update as a result of item change
slimer_creature = first_player.get_creature_by_index(0)
self.assertTrue(slimer_creature.can_attack())
self.assertEqual(first_player.num_board_creatures(), 1)
self.assertTrue(slimer_creature.has_abil(Ability.CHARGE))
self.assertEqual(
first_player.get_creature_by_index(0).name(),
slimer_creature.name())
state.perform_action(Attack(slimer_creature, None))
self.assertEqual(first_player.health(), Constants.INITIAL_HEALTH + 1)
self.assertEqual(second_player.health(), Constants.INITIAL_HEALTH - 2)
def test_drain(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
imp = Constants.CARDS[38]
decks = [[slimer] * 8 + [imp], [scuttler] * 9]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(5):
state.open_next_turn()
state.perform_action(Summon(first_player.from_hand(imp)))
state.open_next_turn()
state.open_next_turn()
state.perform_action(
Attack(first_player.get_creature_by_index(0), None))
self.assertEqual(first_player.health(), Constants.INITIAL_HEALTH + 1)
def round(state: GameState) -> None:
"""A single round (die roll stage) in a game of craps."""
if state.point is None:
print(f"Round {state.round + 1}: Come Out phase")
else:
print(f"Round {state.round + 1}: Point phase (point: {state.point})")
bet_state_message = "Your bets:"
if state.bets:
for bet_type, amount in state.bets.items():
bet_state_message += f"\n {bet_type.value}: {amount}"
else:
bet_state_message += "\n None"
print(bet_state_message)
allowed_bet_types = set()
for bet_type in BetType:
bet = state.get_bet(bet_type)
assert bet.wager >= 0, "Bet wager cannot be negative"
if bet.wager and (bet.can_remove() or bet.min_wager() < bet.wager):
allowed_bet_types.add(bet_type)
elif bet.max_wager() > bet.wager:
allowed_bet_types.add(bet_type)
assert allowed_bet_types, "You cannot bet on anything! WTF?"
while True:
bet_types_str = ", ".join(map(attrgetter("value"), allowed_bet_types))
bet_type_str = input(f"Choose bet type ({bet_types_str}): ").strip()
if not bet_type_str:
print("You decide to skip this round.")
else:
try:
bet_type = BetType(bet_type_str)
except ValueError:
print(f"{bet_type_str!r} is not a valid bet type.")
continue
bet_amount_str = input(
f"Choose amount to bet (your balance: {state.balance}) : ")
try:
bet_amount = int(bet_amount_str)
except ValueError:
print(f"{bet_amount_str!r} is not a valid bet amount.")
continue
bet = state.get_bet(bet_type)
new_wager = bet.wager + bet_amount
(fail_reason, ) = state.set_bets([(bet_type, new_wager)])
if fail_reason:
if fail_reason == BetFailReason.NEGATIVE_WAGER:
print("You can't bet a negative amount!")
elif fail_reason == BetFailReason.NOT_ENOUGH_BALANCE:
print("You don't have that much money.")
elif fail_reason == BetFailReason.CANNOT_ADD_BET:
print("You can't make that bet.")
elif fail_reason == BetFailReason.CANNOT_REMOVE_BET:
print("You can't remove that bet.")
elif fail_reason == BetFailReason.WAGER_BELOW_MIN:
print(f"You have to bet at least ${bet.min_wager()}")
elif fail_reason == BetFailReason.WAGER_ABOVE_MAX:
print(f"You cannot bet more than ${bet.max_wager()}")
else:
raise Exception(
f"Unexpected failure: {fail_reason} for {bet_type}")
continue
try:
bet_outcomes = state.shoot_dice()
except YouShallNotSkipPassError:
print("You can't skip a bet in the Come Out round when you are the"
" shooter.")
continue
break
print("You made a bet.")
(roll1, roll2) = state.last_roll
print(f"You rolled {roll1}, {roll2}")
for bet_type, outcome, wager, winnings in bet_outcomes:
bet_name = BET_TYPE_NAMES[bet_type]
if outcome == BetOutcome.WIN:
print(f" You won a {bet_name} bet! (+${winnings})")
elif outcome == BetOutcome.LOSE:
print(f" You lost a {bet_name} bet... (${wager} gone)")
elif outcome == BetOutcome.TIE:
print(f" You tied a {bet_name} bet. (+${winnings})")
if state.is_finished:
print("Round finished.")
state.reset()
elif state.round == 1:
print(f"You established a point: {state.point}")
else: # Point phase
print("Roll it again, baby.")
def test_guard(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
prowler = Constants.CARDS[49]
decks = [[slimer] * 8 + [prowler], [scuttler] * 9]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(5):
state.open_next_turn()
state.perform_action(Summon(first_player.from_hand(prowler)))
state.perform_action(Summon(first_player.from_hand(slimer)))
state.open_next_turn()
state.perform_action(Summon(second_player.from_hand(scuttler)))
state.perform_action(Summon(second_player.from_hand(scuttler)))
state.open_next_turn()
state.open_next_turn()
self.assertEqual(
first_player.get_creature_by_index(0).name(), prowler.name())
# must attack creature with guard first
with self.assertRaises(IllegalAttackException):
state.perform_action(
Attack(second_player.get_creature_by_index(0),
first_player.get_creature_by_index(1)))
state.perform_action(
Attack(second_player.get_creature_by_index(0),
first_player.get_creature_by_index(0)))
# now we can attack the other creature without guard
state.perform_action(
Attack(second_player.get_creature_by_index(0),
first_player.get_creature_by_index(0)))
def play(self, state: GameState):
# copy to make decisions
state = deepcopy(state)
my_player = state.current_player()
opp_player = state.non_current_player()
actions = []
for card in my_player.get_hand():
if my_player.current_mana() >= card.cost():
if card.is_creature() and my_player.num_board_creatures(
) < Constants.MAX_CREATURES_IN_LINE:
actions.append(Summon(card))
state.perform_action(actions[-1])
elif card.is_item():
if card.is_green_item():
for target in my_player.board():
actions.append(Use(card, target))
state.perform_action(actions[-1])
break
elif card.is_blue_item():
actions.append(Use(card, None))
state.perform_action(actions[-1])
elif card.is_red_item():
for target in opp_player.board():
actions.append(Use(card, target))
state.perform_action(actions[-1])
break
for creature in my_player.board():
if creature.can_attack():
targets = opp_player.board()
if len(targets) > 0:
actions.append(Attack(creature, targets[0]))
else:
actions.append(Attack(creature, None))
state.perform_action(actions[-1])
return actions
def test_ward(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
sapling = Constants.CARDS[7]
decks = [[slimer] * 8 + [sapling], [scuttler] * 9]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(5):
state.open_next_turn()
state.perform_action(Summon(first_player.from_hand(sapling)))
state.open_next_turn()
state.perform_action(Summon(second_player.from_hand(scuttler)))
state.open_next_turn()
state.open_next_turn()
self.assertEqual(first_player.get_creature_by_index(0).defense(), 2)
state.perform_action(
Attack(second_player.get_creature_by_index(0),
first_player.get_creature_by_index(0)))
# check for annulled ward
self.assertEqual(first_player.get_creature_by_index(0).defense(), 2)
def test_draw(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
toad = Constants.CARDS[28]
decks = [[slimer] * 8 + [toad], [scuttler] * 9]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(3):
state.open_next_turn()
self.assertEqual(first_player.num_hand_cards(), 6)
state.perform_action(Summon(first_player.from_hand(toad)))
state.open_next_turn()
state.open_next_turn()
self.assertEqual(first_player.num_hand_cards(), 7)
for i in range(5):
state.open_next_turn()
self.assertEqual(first_player.num_hand_cards(),
Constants.MAX_CARDS_IN_HAND)
self.assertEqual(second_player.num_hand_cards(),
Constants.MAX_CARDS_IN_HAND)
class App:
steps = 0
windowWidth = GRID_WIDTH * 10
windowHeight = GRID_HEIGHT * 10
# step handler takes the snake and the apple and returns a new direction
def __init__(self, step_handler: Callable[[GameState], int],
tick_handler: Callable[[], None] = lambda: None) -> None:
self.step_handler = step_handler
self.tick_handler = tick_handler
self.state = GameState((20, 20))
self.state.apple_pos = (22, 20)
def on_init(self):
pygame.init()
pygame.display.set_caption('EA Snake')
self._display_surf = pygame.display.set_mode((self.windowWidth, self.windowHeight), pygame.HWSURFACE)
self._image_surf = pygame.Surface((10, 10))
self._image_surf.fill((255, 0, 0))
self._apple_surf = pygame.Surface((10, 10))
self._apple_surf.fill((0, 255, 0))
def on_loop(self) -> bool:
self.steps += 1
pygame.display.set_caption('EA Snake - length {} - {} steps'.format(self.state.length, self.steps))
# get new direction
self.state.direction = self.step_handler(self.state)
# move
self_intersection, _ = self.state.move()
if not self_intersection:
print("self or border intersection")
return False
return True
def on_render(self):
self._display_surf.fill((0, 0, 0))
# draw apple
self._display_surf.blit(self._apple_surf, (self.state.apple_pos[0] * 10, self.state.apple_pos[1] * 10))
# draw tiles
for (x, y) in self.state.positions:
self._display_surf.blit(self._image_surf, (x * 10, y * 10))
pygame.display.flip()
def on_execute(self):
self.on_init()
pygame.time.set_timer(EVENT_TICK, 20)
running = True
playing = False
fastest = False
while running:
self.on_render()
if fastest:
event = pygame.event.poll()
fastest = self.on_loop()
else:
event = pygame.event.wait()
if event.type == QUIT or (event.type == KEYDOWN and event.key == K_ESCAPE):
running = False
elif event.type == KEYDOWN and event.key == K_SPACE:
self.on_loop()
elif event.type == EVENT_TICK:
self.tick_handler()
if playing:
playing = self.on_loop()
elif event.type == KEYDOWN and event.key == K_p:
playing = not playing
elif event.type == KEYDOWN and event.key == K_r:
self.state = GameState((20, 20))
self.state.apple_pos = (22, 20)
elif event.type == KEYDOWN and event.key == K_f:
fastest = not fastest
playing = False
pygame.quit()
def test_breakthrough(self):
slimer = Constants.CARDS[1]
protein = Constants.CARDS[117]
scuttler = Constants.CARDS[2]
decks = [[slimer] * 8 + [protein], [scuttler] * 9]
draft = fix_draft(*decks)
state = GameState(draft)
first_player = state.get_first_player()
second_player = state.get_second_player()
for i in range(5):
state.open_next_turn()
state.perform_action(Summon(first_player.from_hand(slimer)))
state.perform_action(
Use(first_player.from_hand(protein),
first_player.get_creature_by_index(0)))
self.assertTrue(
first_player.get_creature_by_index(0).has_abil(
Ability.BREAKTHROUGH))
state.open_next_turn()
state.perform_action(Summon(second_player.from_hand(scuttler)))
state.open_next_turn()
state.perform_action(
Attack(first_player.get_creature_by_index(0),
second_player.get_creature_by_index(0)))
self.assertEqual(second_player.health(), Constants.INITIAL_HEALTH - 1)
def test_attack(self):
slimer = Constants.CARDS[1]
scuttler = Constants.CARDS[2]
decks = [[slimer] * 6, [scuttler] * 6]
draft = fix_draft(*decks)
state = GameState(draft)
state.open_next_turn()
first_player = state.get_first_player()
second_player = state.get_second_player()
state.perform_action(Summon(first_player.from_hand(slimer)))
with self.assertRaises(IllegalAttackException):
state.perform_action(
Attack(first_player.get_creature_by_index(0), None))
with self.assertRaises(InsufficientManaException):
# not enough mana for this
state.perform_action(Summon(first_player.from_hand(slimer)))
self.assertEqual(first_player.health(), Constants.INITIAL_HEALTH + 1)
# second ai turn
state.open_next_turn()
for i in range(2):
state.perform_action(Summon(second_player.from_hand(scuttler)))
# does damage to opp
self.assertEqual(first_player.health(), Constants.INITIAL_HEALTH - 1)
with self.assertRaises(InsufficientManaException):
# not enough mana for this
state.perform_action(Summon(second_player.from_hand(scuttler)))
state.open_next_turn()
a_slimer = first_player.get_creature_by_index(0)
a_target = second_player.get_creature_by_index(0)
state.perform_action(Attack(a_slimer, a_target))
# they should kill each other
self.assertEqual(first_player.num_board_creatures(), 0)
self.assertEqual(second_player.num_board_creatures(), 1)
