Collisions
Rectangular Collision
The sprite class has built in methods to handle collision detection, one of the methods is collide_rect. For this example we are going to create 2 sprite based classes first, one for the enemy and one for the player:
class HeroSprite(pygame.sprite.Sprite):
image = None
def update(self, new_position):
self.rect.topleft = new_position
def __init__(self, initial_position):
pygame.sprite.Sprite.__init__(self) # run the init for the base class
if HeroSprite.image is None:
HeroSprite.image = pygame.image.load("hero.png") # load image for sprite
self.image = HeroSprite.image # set image for the sprite
self.rect = self.image.get_rect() # set rectangle for sprite
self.rect.topleft = initial_position # set position to value passed into method
self.going_down = True # Start going downwards
self.next_update_time = 0 # update() hasn’t been called yet.
The code above will load the image for the sprite, set its position and its bounds (rect). We can create another for the enemy:
class EnemySprite(pygame.sprite.Sprite):
image = None
def update(self, new_position):
self.rect.topleft = new_position
def __init__(self, initial_position):
pygame.sprite.Sprite.__init__(self) # run the init for the base class
if EnemySprite.image is None:
HEnemySprite.image = pygame.image.load("Enemy.png") # load image for sprite
self.image = EnemySprite.image # set image for the sprite
self.rect = self.image.get_rect() # set rectangle for sprite
self.rect.topleft = initial_position # set position to value passed into method
self.going_down = True # Start going downwards
self.next_update_time = 0 # update() hasn’t been called yet.
Before the game loop you can now create an instance of each class, and run the init method for each:
e = EnemySprite
e.__init__(e, [100,100])
pos = [0,0]
h = HeroSprite
h.__init__(h, pos)
Now in the game loop we can make the player move (you can't have collisions if you can't move):
for events in pygame.event.get(): #get all pygame events
if events.type == pygame.KEYDOWN:
if events.key == pygame.K_LEFT:
pos[0]=pos[0]-10 # pos[0] should be first item in the tuple
elif events.key == pygame.K_RIGHT:
pos[0]=pos[0]+10 # pos[0] should be first item in the tuple
elif events.key == pygame.K_UP:
pos[1]=pos[1]-10 # pos[1] should be second item in the tuple
elif events.key == pygame.K_DOWN:
pos[1]=pos[1]+10 # pos[1] should be second item in the tuple
h.update(h, pos)