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Noa Aarts 2025-11-27 23:58:06 +01:00
parent bc71e758cf
commit 74ab281f75
Signed by: noa
GPG key ID: 1850932741EFF672
1 changed files with 90 additions and 64 deletions
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154
blokus.py
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@ -4,50 +4,52 @@ import random
BOARD_SIZE = 14
def make_board():
a = np.array([[0 for i in range(BOARD_SIZE)] for j in range(BOARD_SIZE)])
a[4,4] = -1
a[9,9] = -1
a[4, 4] = -1
a[9, 9] = -1
return a
tiles = [
np.array([[1]]),
np.array([[1],[1]]),
np.array([[1],[1],[1]]),
np.array([[1,0],[1,1]]),
np.array([[1],[1],[1],[1]]),
np.array([[1,0],[1,0],[1,1]]),
np.array([[1,0],[1,1],[1,0]]),
np.array([[1,1],[1,1]]),
np.array([[1,1,0],[0,1,1]]),
np.array([[1],[1],[1],[1],[1]]),
np.array([[1,0],[1,0],[1,0],[1,1]]),
np.array([[1,0],[1,0],[1,1],[0,1]]),
np.array([[1,0],[1,1],[1,1]]),
np.array([[1,1],[1,0],[1,1]]),
np.array([[1,0],[1,1],[1,0],[1,0]]),
np.array([[0,1,0],[0,1,0],[1,1,1]]),
np.array([[1,0,0],[1,0,0],[1,1,1]]),
np.array([[1,1,0],[0,1,1],[0,0,1]]),
np.array([[1,0,0],[1,1,1],[0,0,1]]),
np.array([[1,0,0],[1,1,1],[0,1,0]]),
np.array([[0,1,0],[1,1,1],[0,1,0]]),
np.array([[1], [1]]),
np.array([[1], [1], [1]]),
np.array([[1, 0], [1, 1]]),
np.array([[1], [1], [1], [1]]),
np.array([[1, 0], [1, 0], [1, 1]]),
np.array([[1, 0], [1, 1], [1, 0]]),
np.array([[1, 1], [1, 1]]),
np.array([[1, 1, 0], [0, 1, 1]]),
np.array([[1], [1], [1], [1], [1]]),
np.array([[1, 0], [1, 0], [1, 0], [1, 1]]),
np.array([[1, 0], [1, 0], [1, 1], [0, 1]]),
np.array([[1, 0], [1, 1], [1, 1]]),
np.array([[1, 1], [1, 0], [1, 1]]),
np.array([[1, 0], [1, 1], [1, 0], [1, 0]]),
np.array([[0, 1, 0], [0, 1, 0], [1, 1, 1]]),
np.array([[1, 0, 0], [1, 0, 0], [1, 1, 1]]),
np.array([[1, 1, 0], [0, 1, 1], [0, 0, 1]]),
np.array([[1, 0, 0], [1, 1, 1], [0, 0, 1]]),
np.array([[1, 0, 0], [1, 1, 1], [0, 1, 0]]),
np.array([[0, 1, 0], [1, 1, 1], [0, 1, 0]]),
]
def get_permutations(which_tiles: list[tuple[int,int]]):
def get_permutations(which_tiles: list[tuple[int, int]]):
permutations = []
for i,tile in enumerate(tiles):
for i, tile in enumerate(tiles):
if i not in which_tiles:
continue
permutations.append((i,tile))
permutations.append((i,np.rot90(tile)))
permutations.append((i,np.rot90(np.rot90(tile))))
permutations.append((i,np.rot90(np.rot90(np.rot90(tile)))))
permutations.append((i,np.flip(tile)))
permutations.append((i,np.flip(np.rot90(tile))))
permutations.append((i,np.flip(np.rot90(np.rot90(tile)))))
permutations.append((i,np.flip(np.rot90(np.rot90(np.rot90(tile))))))
permutations.append((i, tile))
permutations.append((i, np.rot90(tile)))
permutations.append((i, np.rot90(np.rot90(tile))))
permutations.append((i, np.rot90(np.rot90(np.rot90(tile)))))
permutations.append((i, np.flip(tile)))
permutations.append((i, np.flip(np.rot90(tile))))
permutations.append((i, np.flip(np.rot90(np.rot90(tile)))))
permutations.append((i, np.flip(np.rot90(np.rot90(np.rot90(tile))))))
unique_arrays = []
for arr in permutations:
@ -56,80 +58,107 @@ def get_permutations(which_tiles: list[tuple[int,int]]):
return unique_arrays
def can_place(board, tile, player):
placements = []
has_minus_one = False
for x in range(BOARD_SIZE):
for y in range(BOARD_SIZE):
if board[x,y] == -1:
if board[x, y] == -1:
has_minus_one = True
with np.nditer(tile, flags=['multi_index']) as it:
with np.nditer(tile, flags=["multi_index"]) as it:
for v in it:
if v == 1:
(i,j) = it.multi_index
(i, j) = it.multi_index
if x + i >= BOARD_SIZE:
break
if y + j >= BOARD_SIZE:
break
if board[x + i][y + j] > 0:
break
if x + i - 1 >= 0 and board[x + i - 1][y+j] == player:
if x + i - 1 >= 0 and board[x + i - 1][y + j] == player:
break
if y + j - 1 >= 0 and board[x + i][y + j - 1] == player:
break
if x + i + 1 < BOARD_SIZE and board[x + i + 1][y+j] == player:
if x + i + 1 < BOARD_SIZE and board[x + i + 1][y + j] == player:
break
if y + j + 1 < BOARD_SIZE and board[x + i][y+j+1] == player:
if y + j + 1 < BOARD_SIZE and board[x + i][y + j + 1] == player:
break
else:
placements.append((x,y))
placements.append((x, y))
final = []
if has_minus_one:
for (x,y) in placements:
with np.nditer(tile, flags=['multi_index']) as it:
for x, y in placements:
with np.nditer(tile, flags=["multi_index"]) as it:
for v in it:
(i,j) = it.multi_index
if v == 1 and board[x+i,y+j] == -1:
final.append((x,y))
(i, j) = it.multi_index
if v == 1 and board[x + i, y + j] == -1:
final.append((x, y))
break
else:
for (x,y) in placements:
with np.nditer(tile, flags=['multi_index']) as it:
for x, y in placements:
with np.nditer(tile, flags=["multi_index"]) as it:
for v in it:
(i,j) = it.multi_index
if x+i+1 < BOARD_SIZE and y+j+1 < BOARD_SIZE and board[x+i+1][y+j+1] == player:
final.append((x,y))
(i, j) = it.multi_index
if (
x + i + 1 < BOARD_SIZE
and y + j + 1 < BOARD_SIZE
and board[x + i + 1][y + j + 1] == player
):
final.append((x, y))
break
if x+i+1 < BOARD_SIZE and y+j-1 >= 0 and board[x+i+1][y+j-1] == player:
final.append((x,y))
if (
x + i + 1 < BOARD_SIZE
and y + j - 1 >= 0
and board[x + i + 1][y + j - 1] == player
):
final.append((x, y))
break
if x+i-1 >= 0 and y+j+1 < BOARD_SIZE and board[x+i-1][y+j+1] == player:
final.append((x,y))
if (
x + i - 1 >= 0
and y + j + 1 < BOARD_SIZE
and board[x + i - 1][y + j + 1] == player
):
final.append((x, y))
break
if x+i-1 >= 0 and y+j-1 >= 0 and board[x+i-1][y+j-1] == player:
final.append((x,y))
if (
x + i - 1 >= 0
and y + j - 1 >= 0
and board[x + i - 1][y + j - 1] == player
):
final.append((x, y))
break
return final
def do_placement(tidx, tile, placement, game_state, player):
(x,y) = placement
with np.nditer(tile, flags=['multi_index']) as it:
(x, y) = placement
with np.nditer(tile, flags=["multi_index"]) as it:
for v in it:
(i,j) = it.multi_index
(i, j) = it.multi_index
if v == 1:
game_state[0][x+i,y+j] = player
game_state[0][x + i, y + j] = player
game_state[player].remove(tidx)
def print_game_state(game_state):
(board, p1tiles, p2tiles) = game_state
for row in board:
print("".join([" " if x == 0 else "X" if x == 1 else "O" if x == 2 else "S" for x in row]))
print(
"".join(
[
" " if x == 0 else "X" if x == 1 else "O" if x == 2 else "S"
for x in row
]
)
)
print("")
print(f"Player 1 tiles left: {p1tiles}")
print(f"Player 2 tiles left: {p2tiles}")
game_state = (
make_board(),
[i for i in range(21)],
@ -141,7 +170,7 @@ playing = True
player = 1
while playing:
moves = []
for (tidx, tile) in get_permutations(game_state[player]):
for tidx, tile in get_permutations(game_state[player]):
for placement in can_place(game_state[0], tile, player):
moves.append((tidx, tile, placement))
@ -156,10 +185,7 @@ while playing:
(tidx, tile, placement) = random.choice(moves)
do_placement(tidx, tile, placement, game_state, player)
if player == 1:
player = 2
elif player == 2:
player = 1