editor.py

@@ -3,7 +3,7 @@ import sys
 from scripts.tilemap import Tilemap
 from scripts.utils import load_images
 
-RENDER_SCALE = 2.0
+RENDER_SCALE: float = 2.0
 
 
 class better_list(list):
@@ -16,45 +16,45 @@ class Editor:
         pygame.init()
 
         pygame.display.set_caption("Editor")
-        self.screen = pygame.display.set_mode((640, 480))
-        self.display = pygame.Surface((320, 240))
+        self.screen: pygame.Surface = pygame.display.set_mode((640, 480))
+        self.display: pygame.Surface = pygame.Surface((320, 240))
 
-        self.clock = pygame.time.Clock()
-        self.running = True
+        self.clock: pygame.time.Clock = pygame.time.Clock()
+        self.running: bool = True
 
-        self.collision_area = pygame.Rect(50, 50, 300, 50)
-        self.movement = [False, False, False, False]
+        self.collision_area: pygame.Rect = pygame.Rect(50, 50, 300, 50)
+        self.movement: list[bool] = [False, False, False, False]
 
-        self.assets = {
+        self.assets: dict[str, list[pygame.Surface]] = {
             "decor": load_images("tiles/decor"),
             "grass": load_images("tiles/grass"),
             "large_decor": load_images("tiles/large_decor"),
             "stone": load_images("tiles/stone"),
         }
 
-        self.tilemap = Tilemap(self, 16)
+        self.tilemap: Tilemap = Tilemap(self, 16)
 
         try:
             self.tilemap.load("map.json")
         except FileNotFoundError:
             pass
 
-        self.isJumping = False
-        self.scroll = [0, 0]
-        self.tile_list = better_list(self.assets)
-        self.tile_group = 0
-        self.tile_variant = 0
+        self.isJumping: bool = False
+        self.scroll: list[float] = [0, 0]
+        self.tile_list: better_list = better_list(self.assets)
+        self.tile_group: int = 0
+        self.tile_variant: int = 0
 
-        self.clicking = False
-        self.right_clicking = False
-        self.shifting = False
+        self.clicking: bool = False
+        self.right_clicking: bool = False
+        self.shifting: bool = False
 
-        self.sekunde = 60
-        self.zaehler = 0
+        self.sekunde: int = 60
+        self.zaehler: int = 0
 
-        self.on_grid = True
+        self.on_grid: bool = True
 
-    def run(self):
+    def run(self) -> None:
         while self.running:
             self.display.fill((0, 0, 0))
 

game.py

@@ -13,16 +13,16 @@ class Game:
         pygame.init()
 
         pygame.display.set_caption("Jump and run spiel")
-        self.screen = pygame.display.set_mode((640, 480))
-        self.display = pygame.Surface((320, 240))
+        self.screen: pygame.Surface = pygame.display.set_mode((640, 480))
+        self.display: pygame.Surface = pygame.Surface((320, 240))
 
-        self.clock = pygame.time.Clock()
-        self.running = True
+        self.clock: pygame.time.Clock = pygame.time.Clock()
+        self.running: bool = True
 
-        self.collision_area = pygame.Rect(50, 50, 300, 50)
-        self.movement = [False, False]
+        self.collision_area: pygame.Rect = pygame.Rect(50, 50, 300, 50)
+        self.movement: list[bool] = [False, False]
 
-        self.assets = {
+        self.assets: dict = {
             # Andere Dinge
             "background": load_image("background.png"),
             "decor": load_images("tiles/decor"),
@@ -41,18 +41,18 @@ class Game:
             "player/slide": Animation(load_images("entities/player/slide")),
             "player/wall_slide": Animation(load_images("entities/player/wall_slide")),
         }
-        self.player = Player(self, (50, 50), (8, 15))
+        self.player: Player = Player(self, (50, 50), (8, 15))
 
-        self.tilemap = Tilemap(self, 16)
+        self.tilemap: Tilemap = Tilemap(self, 16)
         try:
             self.tilemap.load("map.json")
         except FileNotFoundError:
             pass
-        self.clouds = Clouds(self.assets["clouds"], count=16)
-        self.isJumping = False
-        self.scroll = [0, 0]
+        self.clouds: Clouds = Clouds(self.assets["clouds"], count=16)
+        self.isJumping: bool = False
+        self.scroll: list[float] = [0, 0]
 
-    def run(self):
+    def run(self) -> None:
         while self.running:
             self.display.blit(self.assets["background"], (0, 0))
 

scripts/animation.py

@@ -1,5 +1,5 @@
 class Animation:
-    def __init__(self, images, image_duration=5, loop=True):
+    def __init__(self, images: list, image_duration: int = 5, loop: bool = True):
         """
         Initialisiert eine Animation mit einer Liste von Bildern.
  
@@ -11,13 +11,13 @@ class Animation:
         - done startet bei False
         """
         # TODO: Implementieren
-        self.images = images
-        self.image_duration = image_duration
-        self.loop = loop
-        self.frame = 0
-        self.done = False
+        self.images: list = images
+        self.image_duration: int = image_duration
+        self.loop: bool = loop
+        self.frame: int = 0
+        self.done: bool = False
 
-    def copy(self):
+    def copy(self) -> "Animation":
         """
         Erstellt eine Kopie der Animation.
  
@@ -29,7 +29,8 @@ class Animation:
         # TODO: Implementieren
         copy_animation = Animation(self.images, self.image_duration, self.loop)
         return copy_animation
-    def update(self):
+
+    def update(self) -> None:
         """
         Aktualisiert die Animation um einen Frame weiter.
  
@@ -50,6 +51,7 @@ class Animation:
             self.frame = min(self.frame + 1, len(self.images) * self.image_duration -1)
             if self.frame >= self.image_duration * (len(self.images) - 1):
                 self.done = True
+
     def img(self):
         """
         Gibt das aktuelle Bild der Animation zurück.

scripts/clouds.py

@@ -1,45 +1,40 @@
 import pygame
 import random
-class Cloud:
-    def __init__(self, pos:tuple, img, speed:float, depth):
-        self.pos = list(pos)
-        self.image = img
-        self.speed = speed
-        self.depth = depth
 
-    
-    def update(self):
+
+class Cloud:
+    def __init__(self, pos: tuple[float, float], img: pygame.Surface, speed: float, depth: float):
+        self.pos: list[float] = list(pos)
+        self.image: pygame.Surface = img
+        self.speed: float = speed
+        self.depth: float = depth
+
+    def update(self) -> None:
         self.pos[0] += self.speed
-    def render(self, surface:pygame.Surface,offset:tuple=(0,0)):
+
+    def render(self, surface: pygame.Surface, offset: tuple[int, int] = (0, 0)) -> None:
         render_pos = (self.pos[0] - offset[0] * self.depth, self.pos[1] - offset[1] * self.depth)
-        
-        surface.blit(self.image, 
-                            (render_pos[0] % (surface.get_width() + self.image.get_width()) - self.image.get_width(), 
+
+        surface.blit(self.image,
+                            (render_pos[0] % (surface.get_width() + self.image.get_width()) - self.image.get_width(),
                             render_pos[1] % (surface.get_height() + self.image.get_height()) - self.image.get_height())
                             )
+
+
 class Clouds:
-    def __init__(self, cloud_images, count=16):
-        self.clouds = []
+    def __init__(self, cloud_images: list[pygame.Surface], count: int = 16):
+        self.clouds: list[Cloud] = []
         for _ in range(count):
             self.clouds.append(Cloud((random.random() * 99999, random.random() * 99999),
                                      random.choice(cloud_images),
-                                     (random.random() * 0.05 + 0.05) * 1, 
+                                     (random.random() * 0.05 + 0.05) * 1,
                                      random.random() * 0.6 + 0.2))
         self.clouds.sort(key=lambda x: x.depth)
-    """
-        self.clouds = []
 
-        # Erstelle die Wolken mit zufälligen Eigenschaften
-        for i in range(count):
-            self.clouds.append(Cloud((random.random() * 99999, random.random() * 99999),
-                                     random.choice(cloud_images),
-                                     random.random() * 0.05 + 0.05, 
-                                     random.random() * 0.6 + 0.2)
-                              )
-        self.clouds.sort(key=lambda x: x.depth)"""
-    def update(self):
+    def update(self) -> None:
         for cloud in self.clouds:
             cloud.update()
-    def render(self, surface:pygame.Surface, offset:tuple=(0,0)):
+
+    def render(self, surface: pygame.Surface, offset: tuple[int, int] = (0, 0)) -> None:
         for cloud in self.clouds:
             cloud.render(surface, offset)

scripts/tilemap.py

@@ -32,9 +32,9 @@ class Tilemap:
 
     def __init__(self, game, tile_size: int = 16):
         self.game = game
-        self.tile_size = tile_size
-        self.tilemap = {}
-        self.offgrid_tiles = []
+        self.tile_size: int = tile_size
+        self.tilemap: dict[str, dict] = {}
+        self.offgrid_tiles: list[dict] = []
         for i in range(10):
             self.tilemap[str(3 + i) + ";10"] = {
                 "type": "grass",
@@ -47,7 +47,7 @@ class Tilemap:
                 "pos": (10, i + 5),
             }
 
-    def render(self, surface: pg.Surface, offset: tuple = (0, 0)):
+    def render(self, surface: pg.Surface, offset: tuple[int, int] = (0, 0)) -> None:
         for tile in self.offgrid_tiles:
             surface.blit(
                 self.game.assets[tile["type"]][tile["variant"]],
@@ -72,8 +72,8 @@ class Tilemap:
                         ),
                     )
 
-    def tiles_around(self, pos: list):
-        tiles = []
+    def tiles_around(self, pos: list[float]) -> list[dict]:
+        tiles: list[dict] = []
         tile_location = (int(pos[0] // self.tile_size), int(pos[1] // self.tile_size))
         for offset in NEIGHBOR_OFFSETS:
             check_location = (
@@ -86,9 +86,9 @@ class Tilemap:
 
         return tiles
 
-    def physics_rects_around(self, pos: list) -> list:
+    def physics_rects_around(self, pos: list[float]) -> list[pg.Rect]:
         # Erzeuge eine leere Liste für die Rechtecke
-        rects = []
+        rects: list[pg.Rect] = []
         # Durchlaufe alle Tiles aus der Umgebung (tiles_around)
         for tile in self.tiles_around(pos):
             # Prüfe, ob der Tile-Typ in PHYSICS_TILES enthalten ist
@@ -110,7 +110,7 @@ class Tilemap:
         # Gib die Liste der Rechtecke zurück
         return rects
 
-    def autotile(self):
+    def autotile(self) -> None:
 
         for loc in self.tilemap:
             tile = self.tilemap[loc]

scripts/utils.py

@@ -1,13 +1,17 @@
 import pygame
 import os
-BASE_IMG_PATH = 'data/images/'
-def load_image(path):
+
+BASE_IMG_PATH: str = 'data/images/'
+
+
+def load_image(path: str) -> pygame.Surface:
     img = pygame.image.load(BASE_IMG_PATH + path).convert()
     img.set_colorkey((0, 0, 0))
     return img
 
-def load_images(path):
-    images = []
+
+def load_images(path: str) -> list[pygame.Surface]:
+    images: list[pygame.Surface] = []
     for img_name in sorted(os.listdir(BASE_IMG_PATH + path)):
         images.append(load_image(path + '/' + img_name))
     return images