def test_player_can_play_two_lands_in_different_turns():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=data.black_land_deck)
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
new_game.move_to_next_step() #combat - declare_attackers
new_game.move_to_next_step() #combat - declare_blockers
new_game.move_to_next_step() #combat - damage
new_game.move_to_next_step() #main - main
new_game.move_to_next_step() #main - main (other player)
new_game.move_to_next_step() #combat - declare_attackers
new_game.move_to_next_step() #combat - declare_blockers
new_game.move_to_next_step() #combat - damage
new_game.move_to_next_step() #main - main
new_game.move_to_next_step() #main - main (other player)
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
assert len(bernardo.position.hand) == 5
assert len(bernardo.position.battlefield) == 2
assert bernardo.position.battlefield[1] == land_to_play
def test_playing_two_lands_in_the_same_turn_fails():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=data.black_land_deck)
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
land_to_play = bernardo.position.hand[0]
assert_raises(InvalidOperationError, bernardo.play, card=land_to_play, exc_pattern=r"The player can only play one land per turn.")
def test_player_can_play_land():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=data.black_land_deck)
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
assert len(bernardo.position.hand) == 6
assert len(bernardo.position.battlefield) == 1
assert bernardo.position.battlefield[0] == land_to_play
def test_generating_mana_out_of_a_tapped_land_raises():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=data.black_land_deck)
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
land_to_play.GenerateManaAndTap() #tap to generate mana
assert_raises(InvalidOperationError, land_to_play.GenerateManaAndTap, exc_pattern=r"The player can't generate mana out of a tapped card.")
def test_generate_mana_and_tap_ability_taps_card():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=deepcopy(data.black_land_deck))
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land = bernardo.position.hand[0]
bernardo.play(land)
land.GenerateManaAndTap()
assert land.is_tapped
def test_generate_mana_and_tap_ability_raises_when_card_is_tapped():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=deepcopy(data.black_land_deck))
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land = bernardo.position.hand[0]
bernardo.play(land)
land.GenerateManaAndTap()
assert_raises(InvalidOperationError, land.GenerateManaAndTap, exc_pattern=r"The player can't generate mana out of a tapped card.")
def test_player_can_tap_lands_to_get_mana():
new_game = Game()
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=data.black_land_deck)
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land_to_play = bernardo.position.hand[0]
bernardo.play(land_to_play)
land_to_play.GenerateManaAndTap() #tap to generate mana
assert bernardo.position.mana["green"] == 1
assert bernardo.position.mana["black"] == 0
assert bernardo.position.mana["blue"] == 0
assert bernardo.position.mana["red"] == 0
assert bernardo.position.mana["white"] == 0
assert bernardo.position.mana["colorless"] == 0
assert land_to_play.is_tapped
def test_generate_mana_and_tap_ability_publishes_mana_generated_event():
new_game = Game()
messages = []
def handle_event(game, position, card):
messages.append("Card %s tapped to generate 1 %s mana" % (card.name, card.color))
new_game.bus.subscribe('mana_generated', handle_event)
bernardo = Player(name="Bernardo", deck=deepcopy(data.green_land_deck))
john = Player(name="John", deck=deepcopy(data.black_land_deck))
new_game.add_player(bernardo)
new_game.add_player(john)
new_game.initialize()
land = bernardo.position.hand[0]
bernardo.play(land)
land.GenerateManaAndTap()
assert len(messages) == 1
assert messages[0] == "Card Forest tapped to generate 1 green mana"
