fix some stuff

src/environment.py

@@ -8,7 +8,7 @@ from tilesFactory import TilesFactory
 def generate_field() -> List[List[Tile]]:
     tiles_factory = TilesFactory()
     tiles_list = tiles_factory.get_tiles_list()
-    return [choices(tiles_list, weights=[10, 10, 4, 4, 4, 4, 4, 4, 4, 4, 4,2,2], k=12) for _ in range(12)]
+    return [choices(tiles_list, weights=[10, 10, 4, 4, 4, 4, 4, 4, 4, 4, 4, 2, 2], k=10) for _ in range(10)]
 
 
 class Environment:

src/main.py

@@ -64,21 +64,21 @@ def main():
             elif event.type == pg.KEYDOWN:
                 if event.key == pg.K_t:
                     print('Starting to clear the sector')
-                    while env.mine_count:
-                        print('-'*20)
-                        path, actions = breadth_first_search(env.field, agent.x, agent.y, agent.direction)
-                        #xd: Tuple[int,int] = Tuple[agent.x, agent.y]
-                       # path, actions = a_star(env.field, agent.x, agent.y, agent.direction, nearest_bomb((agent.x, agent.y), env.field))
-                        if not path and not env.field[agent.y][agent.x].mine:
-                            print('Unable to find path, rocks are in the way')
-                            break
-                        print(f'Path{path}')
-                        print(f'Actions:{actions}')
-                        for action in actions:
-                            pg.fastevent.post(pg.event.Event(pg.KEYDOWN, {'key': action}))
+                    #while env.mine_count:
+                    print('-'*20)
+                    #path, actions = breadth_first_search(env.field, agent.x, agent.y, agent.direction)
+                    #xd: Tuple[int,int] = Tuple[agent.x, agent.y]
+                    path, actions = a_star(env.field, agent.x, agent.y, agent.direction, nearest_bomb((agent.x, agent.y), env.field))
+                    if not path and not env.field[agent.y][agent.x].mine:
+                        print('Unable to find path, rocks are in the way')
+                        break
+                    print(f'Path{path}')
+                    print(f'Actions:{actions}')
+                    for action in actions:
+                        pg.fastevent.post(pg.event.Event(pg.KEYDOWN, {'key': action}))
 
-                        pg.fastevent.post(pg.event.Event(pg.KEYDOWN, {'key': pg.K_SPACE}))
-                        handle_keys(env, agent, game_ui, factory)
+                    pg.fastevent.post(pg.event.Event(pg.KEYDOWN, {'key': pg.K_SPACE}))
+                    handle_keys(env, agent, game_ui, factory)
                     print('Sector clear')
                 else:
                     pg.fastevent.post(event)

src/search_algoritms/a_star.py

@@ -3,11 +3,13 @@ from operator import itemgetter
 
 from src.node import Node
 from src.tile import Tile
+from ap_mine import APMine
+from at_mine import ATMine
 from .helpers import successor, get_path_actions, calculate_priority
-from ..mine import Mine
 
 
 def a_star(field: List[List[Tile]], start_x: int, start_y: int, start_direction: int, goal: Tuple[int, int]):
+    print(goal)
     explored = []
     node_queue: List[Tuple[int, Node]] = [(field[start_x][start_y].weight, Node(start_x, start_y, start_direction))]
     # do kolejki dodawać krotke (priorytet, obiekt)
@@ -16,7 +18,7 @@ def a_star(field: List[List[Tile]], start_x: int, start_y: int, start_direction:
         priority, node = node_queue.pop(0)
         # przy get wyciąga element z najniższą wartością priorytetu
 
-        if field[node.y][node.x] == goal:
+        if (node.x, node.y) == goal:
             return get_path_actions(node)
 
         explored.append(node)
@@ -29,7 +31,6 @@ def a_star(field: List[List[Tile]], start_x: int, start_y: int, start_direction:
             elif (index := [
                 index for index, queue_tuple in enumerate(node_queue) if neighbour_priority > queue_tuple[0] and neighbour_node == queue_tuple[1]
             ]):
-                print(index)
                 node_queue[index[0]] = (neighbour_priority, neighbour_node)
                 node_queue = sorted(node_queue, key=itemgetter(0))
 
@@ -42,13 +43,13 @@ def heuristic(a: Tuple[int, int], b: Tuple[int, int]):
     return abs(x1 - x2) + abs(y1 - y2)
 
 
-def nearest_bomb(a: Tuple[int, int],field: List[List[Tile]]):
+def nearest_bomb(a: Tuple[int, int], field: List[List[Tile]]):
     min = 20
     min_x = 0
     min_y = 0
     for x in range(10):
         for y in range(10):
-            if issubclass(Mine,field[x][y].mine.__class__):
+            if isinstance(field[y][x].mine, (APMine, ATMine)):
                 distance = abs(a[0] - x) + abs(a[1] - y)
                 if distance < min:
                     min = distance

src/tilesFactory.py

@@ -10,9 +10,9 @@ class TilesFactory:
 		img = IMAGES[number]
 		if img.mine_type:
 			module = import_module(f'{img.mine_type.lower()}_mine')
-			return Tile(number, 1, getattr(module, f'{img.mine_type}Mine'))
+			return Tile(number, 1, getattr(module, f'{img.mine_type}Mine')())
 		else:
-			return Tile(number, 1, None) if img.name.find('grass') else Tile(number,3, None)
+			return Tile(number, 1, None) if img.name.find('grass') else Tile(number, 3, None)
 	
 	def get_tiles_list(self) -> List[Tile]:
 		return [self.create_tile(i) for i in range(13)]