feat: Finding path using BFS function
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61
app.py
61
app.py
@ -5,6 +5,7 @@ from classes.coffeMachine import CoffeMachine
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from pygame.locals import K_w, K_s, K_a, K_d
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from classes.cell import Cell
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from classes.agent import Agent
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from collections import deque
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pygame.init()
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window = pygame.display.set_mode((prefs.WIDTH, prefs.HEIGHT))
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pygame.display.set_caption("Game Window")
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@ -44,7 +45,67 @@ def draw_grid(window, cells, agent):
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window.blit(scoreText, (0, 0))
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window.blit(multiplierText, (0, 50))
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initBoard()
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def bfs(start, target, cells):
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queue = deque([(start,[])])
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visited = set()
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while queue:
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current, path = queue.popleft()
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if current==target:
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return path + [current]
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if current in visited:
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continue
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visited.add(current)
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for neighbor in get_neighbors(current, cells):
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queue.append((neighbor, path + [current]))
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return None
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def get_neighbors(cell, cells):
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neighbors = []
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x, y = cell.X, cell.Y
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if x > 0 and not cells[x-1][y].blocking_movement:
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neighbors.append(cells[x-1][y])
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if x < prefs.GRID_SIZE - 1 and not cells[x+1][y].blocking_movement:
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neighbors.append(cells[x+1][y])
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if y > 0 and not cells[x][y-1].blocking_movement:
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neighbors.append(cells[x][y-1])
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if y < prefs.GRID_SIZE - 1 and not cells[x][y+1].blocking_movement:
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neighbors.append(cells[x][y+1])
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return neighbors
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#Wpisujemy miejsce w ktorym znajduje sie agent i miejsce docelowe
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start_cell = cells[5][5]
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target_cell = cells[10][10]
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shortest_path = bfs(start_cell, target_cell, cells)
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if shortest_path:
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print("Sciezka: ", [(cell.X, cell.Y) for cell in shortest_path])
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else:
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print("Brak sciezki")
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agent = Agent(prefs.SPAWN_POINT[0], prefs.SPAWN_POINT[1], cells)
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running = True
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while running:
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@ -1,4 +1,5 @@
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import pygame
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from collections import deque
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import prefs
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class Agent:
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def __init__(self, x, y, cells, baseScore=0):
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@ -12,6 +13,8 @@ class Agent:
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self.cells = cells
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self.score = baseScore
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self.multiplier = 1
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self.x = x
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self.y = y
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def move_up(self):
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if pygame.time.get_ticks()-self.last_move_time > 125 and self.current_cell.Y > 0 and not self.cells[self.current_cell.X][self.current_cell.Y-1].blocking_movement:
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@ -62,3 +65,37 @@ class Agent:
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return
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if self.multiplier < 1:
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self.multiplier = 1
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def shortest_path(grid, start, end):
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directions = [(0, 1), (0, -1), (1, 0), (-1, 0)]
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rows, cols = len(grid), len(grid[0])
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# Funkcja pomocnicza sprawdzająca, czy dany punkt znajduje się na siatce
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def is_valid(x, y):
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return 0 <= x < rows and 0 <= y < cols and grid[x][y] == 0
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# Inicjalizujemy kolejkę BFS i odwiedzone punkty
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queue = deque([(start, 0)]) # (punkt, odległość)
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visited = set()
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# Rozpoczynamy BFS
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while queue:
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(x, y), distance = queue.popleft()
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# Sprawdzamy, czy osiągnęliśmy punkt docelowy
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if (x, y) == end:
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return distance
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# Sprawdzamy wszystkie możliwe kierunki ruchu
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for dx, dy in directions:
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nx, ny = x + dx, y + dy
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# Sprawdzamy czy nowa pozycja jest ważna i nieodwiedzona
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if is_valid(nx, ny) and (nx, ny) not in visited:
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visited.add((nx, ny))
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queue.append(((nx, ny), distance + 1))
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# Jeśli nie udało się osiągnąć punktu docelowego, zwracamy -1
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return -1
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