import random import pygame as pg from settings import * from map.tile import Tile from map import map_pattern from game_objects.trashbin import Trashbin # tworzenie pustego arraya o podanych wymiarach def get_blank_map_array(): map = [[0 for x in range(0,MAP_WIDTH)] for y in range (0,MAP_HEIGHT)] return map # generowanie obiektow na mapie def generate_map(): map = get_blank_map_array() # generowanie scian for i in range(0, 20): x = random.randint(0, MAP_WIDTH-1) y = random.randint(0, MAP_HEIGHT-1) map[y][x] = 1 # generowanie smietnikow for i in range(0, 20): x = random.randint(0, MAP_WIDTH-1) y = random.randint(0, MAP_HEIGHT-1) map[y][x] = 2 return map trashbins =[] # tworzenie grup sprite'ow def get_sprites(map, pattern): roadTiles = pg.sprite.Group() wallTiles = pg.sprite.Group() trashbinTiles = pg.sprite.Group() trashbin_pattern = map_pattern.get_trashbin_pattern() #objechanie tablicy i generowanie tile'a na danych kordach for i in range(len(map)): offsetY = i * TILE_SIZE_PX for j in range(len(map[i])): offsetX = j * TILE_SIZE_PX tileId = map[i][j] if tileId == 0 or tileId == 1: tile = Tile(pattern[tileId], offsetX, offsetY, TILE_SIZE_PX, TILE_SIZE_PX) if tileId == 0: roadTiles.add(tile) else: wallTiles.add(tile) elif tileId == 2: trashbinId = random.randint(0, 4) tile = Tile(pattern[0], offsetX, offsetY, TILE_SIZE_PX, TILE_SIZE_PX) trashbin = Trashbin(trashbin_pattern[trashbinId], offsetX, offsetY, 32, 30, trashbinId) roadTiles.add(tile) trashbinTiles.add(trashbin) trashbins.append(trashbin) return roadTiles, wallTiles, trashbinTiles def isRoadTile(tileId: int) -> bool: if tileId == 0 or tileId == 2: return True else: return False class Camera: def __init__(self,width,height): self.camera = pg.Rect(0,0, width, height) self.width = width self.height = height def apply(self,entity): return entity.rect.move(self.camera.topleft) def apply_rect(self, rect): return rect.move(self.camera.topleft) def offset(self): x, y = self.camera.topleft return x//TILE_SIZE_PX, y//TILE_SIZE_PX def update(self,target): x = -target.rect.x + int(WIDTH/2) y = -target.rect.y + int(HEIGHT / 2) # limit scrolling to map size x = min(0, x) # left y = min(0, y) # top x = max(-(self.width - WIDTH), x) # right y = max(-(self.height - HEIGHT), y) # bottom self.camera = pg.Rect(x, y, self.width, self.height)