def test_custom_board_init(monkeypatch):
board = Board.create([0, 1, 2, 3, 4], 1, 5, 10, 3)
# Redundant asserts
assert board.players == [0, 1, 2, 3, 4]
assert board.pieces_per_player == 1
assert board.board_sides == 5
assert board.board_side_length == 10
assert board.finish_zone_length == 3
# Consistency asserts
assert board.player_shift == board.board_side_length * board.board_sides // len(
board.players
)
assert board.path_zone_length == len(board.players) * board.player_shift
assert (
board.end_progress
== board.player_shift * len(board.players) + board.finish_zone_length + 1
)
assert len(board.pieces) == len(board.players) * board.pieces_per_player
# Explicit asserts
assert board.pieces == [
Piece(0, 0, 0),
Piece(0, 1, 0),
Piece(0, 2, 0),
Piece(0, 3, 0),
Piece(0, 4, 0),
]
def test_do_not_move_piece_to_end_on_bigger_dice(monkeypatch):
# Given we have started the game and a piece is in the safe zone
board = Board.create(players=[0, 2], pieces_per_player=1)
state = GameState.create(board)
dice = Dice()
monkeypatch.setattr(dice, "roll", lambda: 5)
game = GameEngine(board, dice)
state.board.pieces[0].progress = board.end_progress - 3
# When we roll the dice with 5 which is bigger then we need to
# get to the goal
new_state = game.play(GameMove.roll_dice(player=0))
# Then the piece should not go to the goal and it should be the
# next player turn
assert new_state == game.get_state()
assert new_state.number == 1
assert new_state.dice == 5
assert new_state.valid_actions == [
GameMove.roll_dice(player=2),
]
assert new_state.board.pieces == [
Piece(number=0, player=0, progress=board.end_progress - 3),
Piece(number=0, player=2, progress=0),
]
assert new_state.winners == []
def test_board_is_on_target():
board = Board.create()
p0_on_target = board.is_on_target(piece=Piece(number=0, player=0, progress=61))
assert not p0_on_target
p0_on_target = board.is_on_target(piece=Piece(number=0, player=0, progress=62))
assert p0_on_target
p0_on_target = board.is_on_target(piece=Piece(number=0, player=0, progress=66))
assert not p0_on_target
def test_board_is_on_start():
board = Board.create()
p0_on_start = board.is_on_start(piece=Piece(number=0, player=0, progress=0))
assert p0_on_start
p0_on_start = board.is_on_start(piece=Piece(number=0, player=0, progress=1))
assert not p0_on_start
p0_on_start = board.is_on_start(piece=Piece(number=0, player=0, progress=2))
assert not p0_on_start
def test_board_is_on_finish():
board = Board.create()
p0_on_finish = board.is_on_finish(piece=Piece(number=0, player=0, progress=56))
assert not p0_on_finish
p0_on_finish = board.is_on_finish(piece=Piece(number=0, player=0, progress=61))
assert p0_on_finish
p0_on_finish = board.is_on_finish(piece=Piece(number=0, player=0, progress=62))
assert not p0_on_finish
def test_board_is_on_path():
board = Board.create()
p0_on_path = board.is_on_path(piece=Piece(number=0, player=0, progress=0))
assert not p0_on_path
p0_on_path = board.is_on_path(piece=Piece(number=0, player=0, progress=1))
assert p0_on_path
p0_on_path = board.is_on_path(piece=Piece(number=0, player=0, progress=10))
assert p0_on_path
p0_on_path = board.is_on_path(piece=Piece(number=0, player=0, progress=61))
assert not p0_on_path
def __on_piece_out(self, piece: Piece, dice: int) -> GameState:
assert self.state.board.is_on_start(piece)
assert dice == 6
piece.progress = 1
self.__knock_out_other_players(piece)
self.state.valid_actions = [GameMove.roll_dice(piece.player)]
self.state.number = self.state.number + 1
return self.state
def test_board_relative_position():
board = Board.create()
# Test relative position for each player
rel_pos_p0 = board.relative_position(piece=Piece(number=0, player=0, progress=20))
assert rel_pos_p0 == 20
rel_pos_p1 = board.relative_position(piece=Piece(number=0, player=1, progress=20))
assert rel_pos_p1 == 34
rel_pos_p2 = board.relative_position(piece=Piece(number=0, player=2, progress=20))
assert rel_pos_p2 == 48
rel_pos_p3 = board.relative_position(piece=Piece(number=0, player=3, progress=20))
assert rel_pos_p3 == 6
# Test a position outside of path_zone
with pytest.raises(Exception):
board.relative_position(piece=Piece(number=0, player=0, progress=61))
def test_2_players_board_init(monkeypatch):
"""Make sure if we have just two players in a 4 corner board for them
to be at the opposite corners instead of next to each other.
"""
board = Board.create([1, 3])
# Redundant asserts
assert board.players == [1, 3]
# Defaults asserts
assert board.pieces_per_player == 4
assert board.board_sides == 4
assert board.board_side_length == 14
assert board.finish_zone_length == 5
# Consistency asserts
assert board.player_shift == board.board_side_length * board.board_sides // len(
board.players
)
assert board.path_zone_length == len(board.players) * board.player_shift
assert (
board.end_progress
== board.player_shift * len(board.players) + board.finish_zone_length + 1
)
assert len(board.pieces) == len(board.players) * board.pieces_per_player
# Explicit asserts
assert board.pieces == [
Piece(0, 1, 0),
Piece(1, 1, 0),
Piece(2, 1, 0),
Piece(3, 1, 0),
Piece(0, 3, 0),
Piece(1, 3, 0),
Piece(2, 3, 0),
Piece(3, 3, 0),
]
def __on_move_piece(self, piece: Piece, dice: int) -> GameState:
def __is_winning(piece: Piece) -> bool:
winner = True
for _piece in self.state.board.pieces:
if _piece.player == piece.player:
winner = winner and _piece.progress == self.state.board.end_progress
return winner
b = self.state.board
if piece.progress + dice < b.end_progress + 1:
piece.progress = piece.progress + dice
if b.is_on_path(piece):
self.__knock_out_other_players(piece)
if __is_winning(piece):
self.state.winners.append(piece.player)
if len(self.state.winners) >= len(b.players) - 1:
self.state.valid_actions = []
else:
self.state.valid_actions = [self.__on_end_move()]
self.state.number = self.state.number + 1
return self.state
def test_3_players_6_corner_board_init(monkeypatch):
"""Make sure if we have just 3 players in a 5 corner board for them
to be at the opposite corners instead of next to each other.
"""
board = Board.create([0, 2, 3], board_sides=6, board_side_length=9)
# Redundant asserts
assert board.players == [0, 2, 3]
assert board.board_sides == 6
assert board.board_side_length == 9
# Defaults asserts
assert board.finish_zone_length == 5
assert board.pieces_per_player == 4
# Consistency asserts
assert board.player_shift == board.board_side_length * board.board_sides // len(
board.players
)
assert board.path_zone_length == len(board.players) * board.player_shift
# end_progress == path_zone_length + finish_zone_length + 1 THAT IS
# end_progress == (board_sides * board_side_length) + finish_zone_length + 1
assert (
board.end_progress
== board.player_shift * len(board.players) + board.finish_zone_length + 1
)
assert len(board.pieces) == len(board.players) * board.pieces_per_player
# Explicit asserts
assert board.pieces == [
Piece(0, 0, 0),
Piece(1, 0, 0),
Piece(2, 0, 0),
Piece(3, 0, 0),
Piece(0, 2, 0),
Piece(1, 2, 0),
Piece(2, 2, 0),
Piece(3, 2, 0),
Piece(0, 3, 0),
Piece(1, 3, 0),
Piece(2, 3, 0),
Piece(3, 3, 0),
]
def test_default_board_init(monkeypatch):
board = Board.create()
# Defaults asserts
assert board.players == [0, 1, 2, 3]
assert board.pieces_per_player == 4
assert board.board_sides == 4
assert board.board_side_length == 14
assert board.finish_zone_length == 5
# Consistency asserts
assert board.player_shift == 14
assert (
board.end_progress
== board.player_shift * len(board.players) + board.finish_zone_length + 1
)
assert len(board.pieces) == len(board.players) * board.pieces_per_player
# Explicit asserts
assert list(filter(lambda p: p.player == 0, board.pieces)) == [
Piece(0, 0, 0),
Piece(1, 0, 0),
Piece(2, 0, 0),
Piece(3, 0, 0),
]
assert list(filter(lambda p: p.player == 1, board.pieces)) == [
Piece(0, 1, 0),
Piece(1, 1, 0),
Piece(2, 1, 0),
Piece(3, 1, 0),
]
assert list(filter(lambda p: p.player == 2, board.pieces)) == [
Piece(0, 2, 0),
Piece(1, 2, 0),
Piece(2, 2, 0),
Piece(3, 2, 0),
]
assert list(filter(lambda p: p.player == 3, board.pieces)) == [
Piece(0, 3, 0),
Piece(1, 3, 0),
Piece(2, 3, 0),
Piece(3, 3, 0),
]
def test_do_move_take_out_of_home_and_knock_out(monkeypatch):
dice4 = Dice()
monkeypatch.setattr(dice4, "roll", lambda: 4)
dice6 = Dice()
monkeypatch.setattr(dice6, "roll", lambda: 6)
b = Board.create(players=[0, 1], pieces_per_player=1)
g = GameEngine(b)
assert GameMove.roll_dice(0) in g.state.valid_actions
g.dice = dice4
s = g.play(GameMove.roll_dice(0))
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 0))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 1)]
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 7)]
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 13)]
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 19)]
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 25)]
assert s.valid_actions == [GameMove.roll_dice(1)]
g.dice = dice4
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 4))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 29)]
assert s.valid_actions == [GameMove.roll_dice(0)]
g.dice = dice6
s = g.play(GameMove.roll_dice(0))
assert GameMove.piece_out(0, 0) in s.valid_actions
s = g.play(GameMove.piece_out(0, 0))
assert s.board.pieces == [Piece(0, 0, 1), Piece(0, 1, 0)]
def test_play_until_the_end_two_players_once_piece(monkeypatch):
# Given we have started the game
board = Board.create(players=[0, 2], pieces_per_player=1)
state = GameState.create(board)
dice = Dice()
monkeypatch.setattr(dice, "roll", lambda: 6)
game = GameEngine(board, dice)
# When we roll the dice
new_state = game.play(GameMove.roll_dice(player=0))
# Then the state should be as expected
assert new_state == game.get_state()
assert new_state.number == 1
assert new_state.dice == 6
assert new_state.valid_actions == [
GameMove.piece_out(player=0, piece=0, dice=6),
]
# And When we play getting out with the first peice
new_state = game.play(GameMove.piece_out(player=0, piece=0, dice=6))
# Then the first piece should be out
assert new_state.current_player == 0
assert new_state.number == 2
assert new_state.dice == 6
assert new_state.board.pieces == [
Piece(number=0, player=0, progress=1),
Piece(number=0, player=2, progress=0),
]
assert new_state.valid_actions == [GameMove.roll_dice(player=0)]
# And When we row the dice again with 6
new_state = game.play(GameMove.roll_dice(player=0))
# Then we should should be able to move the piece forward
assert new_state.number == 3
assert new_state.dice == 6
assert new_state.valid_actions == [GameMove.move_piece(player=0, piece=0, dice=6)]
# And When we move the piece
new_state = game.play(GameMove.move_piece(player=0, piece=0, dice=6))
# Then it should go forward and we should be able to roll the dice again
assert new_state.number == 4
assert new_state.winners == []
assert new_state.board.pieces == [
Piece(number=0, player=0, progress=7),
Piece(number=0, player=2, progress=0),
]
assert new_state.valid_actions == [GameMove.roll_dice(player=0)]
# And When we roll the dice again with 6
new_state = game.play(GameMove.roll_dice(player=0))
# Then we should be able to move the piece forward
assert new_state.dice == 6
assert new_state.number == 5
assert new_state.valid_actions == [GameMove.move_piece(player=0, piece=0, dice=6)]
# And When we move the piece
new_state = game.play(GameMove.move_piece(player=0, piece=0, dice=6))
# Then the piece should go forward and we should be able to roll the dice again
assert new_state.number == 6
assert new_state.board.pieces == [
Piece(number=0, player=0, progress=13),
Piece(number=0, player=2, progress=0),
]
assert new_state.winners == []
assert new_state.valid_actions == [GameMove.roll_dice(player=0)]
# And When we position the piece toward the end of the board
new_state.board.pieces[0].progress = board.end_progress - 6
# And When we roll the dice again with 6
new_state = game.play(GameMove.roll_dice(player=0))
# Then we should be able to move the piece forward into the safe zone and to the goal
assert new_state.dice == 6
assert new_state.number == 7
assert new_state.valid_actions == [GameMove.move_piece(player=0, piece=0, dice=6)]
# And When we move the piece
new_state = game.play(GameMove.move_piece(player=0, piece=0, dice=6))
# Then the piece should go forward and we should be able to roll the dice again
assert new_state.number == 8
assert new_state.board.pieces == [
Piece(number=0, player=0, progress=board.end_progress),
Piece(number=0, player=2, progress=0),
]
assert new_state.winners == [0]
assert new_state.valid_actions == []
def test_move_blocked(monkeypatch):
dice1 = Dice()
monkeypatch.setattr(dice1, "roll", lambda: 1)
dice5 = Dice()
monkeypatch.setattr(dice5, "roll", lambda: 5)
dice6 = Dice()
monkeypatch.setattr(dice6, "roll", lambda: 6)
b = Board.create(players=[0, 1], pieces_per_player=2)
g = GameEngine(b)
assert GameMove.roll_dice(0) in g.state.valid_actions
g.dice = dice5
s = g.play(GameMove.roll_dice(0))
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 0))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 1), Piece(1, 1)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 1))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 1), Piece(1, 1, 1)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 7), Piece(1, 1, 7)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 13),
Piece(1, 1, 13),
]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 19),
Piece(1, 1, 19),
]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 25),
Piece(1, 1, 25),
]
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice5
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 5))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 30),
Piece(1, 1, 25),
]
assert s.valid_actions == [GameMove.roll_dice(0)]
s = g.play(GameMove.roll_dice(0))
# i.e. player 0 can't move
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 5))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 30),
Piece(1, 1, 30),
]
assert s.valid_actions == [GameMove.roll_dice(0)]
g.dice = dice6
s = g.play(GameMove.roll_dice(0))
s = g.play(GameMove.piece_out(0, 0))
assert s.board.pieces == [
Piece(0, 0, 1),
Piece(1, 0),
Piece(0, 1, 30),
Piece(1, 1, 30),
]
assert s.valid_actions == [GameMove.roll_dice(0)]
g.dice = dice1
s = g.play(GameMove.roll_dice(0))
# i.e. player 0 can't move: piece 1 is not out, and piece 0 is blocked
assert s.valid_actions == [GameMove.roll_dice(1)]
def test_do_move_and_knock_out(monkeypatch):
dice1 = Dice()
monkeypatch.setattr(dice1, "roll", lambda: 1)
dice5 = Dice()
monkeypatch.setattr(dice5, "roll", lambda: 5)
dice6 = Dice()
monkeypatch.setattr(dice6, "roll", lambda: 6)
b = Board.create(players=[0, 1], pieces_per_player=1)
g = GameEngine(b)
assert GameMove.roll_dice(0) in g.state.valid_actions
g.dice = dice1
s = g.play(GameMove.roll_dice(0))
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 0))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 1)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 7)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 13)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 19)]
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice5
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 5))
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 24)]
assert GameMove.roll_dice(0) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(0))
assert GameMove.piece_out(0, 0) in s.valid_actions
s = g.play(GameMove.piece_out(0, 0))
assert s.board.pieces == [Piece(0, 0, 1), Piece(0, 1, 24)]
g.dice = dice1
s = g.play(GameMove.roll_dice(0))
s = g.play(GameMove.move_piece(0, 0, 1))
assert s.board.pieces == [Piece(0, 0, 2), Piece(0, 1, 24)]
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
assert GameMove.move_piece(1, 0, 6) in s.valid_actions
s = g.play(GameMove.move_piece(1, 0, 6))
# player 1 hits player 0 and sends her home
assert s.board.pieces == [Piece(0, 0, 0), Piece(0, 1, 30)]
def test_do_move_blocked_out_of_home(monkeypatch):
dice4 = Dice()
monkeypatch.setattr(dice4, "roll", lambda: 4)
dice6 = Dice()
monkeypatch.setattr(dice6, "roll", lambda: 6)
b = Board.create(players=[0, 1], pieces_per_player=2)
g = GameEngine(b)
assert GameMove.roll_dice(0) in g.state.valid_actions
g.dice = dice4
s = g.play(GameMove.roll_dice(0))
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 0))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 1), Piece(1, 1)]
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice6
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.piece_out(1, 1))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 1), Piece(1, 1, 1)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [Piece(0, 0), Piece(1, 0), Piece(0, 1, 7), Piece(1, 1, 7)]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 13),
Piece(1, 1, 13),
]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 19),
Piece(1, 1, 19),
]
assert GameMove.roll_dice(1) in s.valid_actions
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 6))
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 6))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 25),
Piece(1, 1, 25),
]
assert GameMove.roll_dice(1) in s.valid_actions
g.dice = dice4
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 0, 4))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 29),
Piece(1, 1, 25),
]
assert s.valid_actions == [GameMove.roll_dice(0)]
s = g.play(GameMove.roll_dice(0))
# i.e. player 0 can't move
assert s.valid_actions == [GameMove.roll_dice(1)]
s = g.play(GameMove.roll_dice(1))
s = g.play(GameMove.move_piece(1, 1, 4))
assert s.board.pieces == [
Piece(0, 0),
Piece(1, 0),
Piece(0, 1, 29),
Piece(1, 1, 29),
]
assert s.valid_actions == [GameMove.roll_dice(0)]
assert s.board.pieces == [
Piece(0, 0, 0),
Piece(1, 0, 0),
Piece(0, 1, 29),
Piece(1, 1, 29),
]
g.dice = dice6
s = g.play(GameMove.roll_dice(0))
# i.e. player 0 can't move, but since she drew 6, repeats turn
assert s.current_player == 0
assert s.valid_actions == [GameMove.roll_dice(0)]