You might also want your bullets to be
Sprites grouped to a
Batch for faster execution (in case of heavy fire). The
pygletdocs show how its done:
batch = pyglet.graphics.Batch()
bullet_image = pyglet.image.load('bullet.png')
bullet_sprites =  # I've changed the variable names to fitting our issue
for i in range(100):
x, y = i * 10, 50
bullet_sprites.append(pyglet.sprite.Sprite(bullet_image, x, y, batch=batch)
First, a fresh
Batch is created. Next, 100 distinct
Sprite objects are instantiated, each of which acts as a well-suited container for one bullet (or balls, but let's pretend we've got bullets here).
Each call of the
Sprite constructor passes an optional reference to our
batch, thus attaching all newly created bullet
Sprites to the bullet
The beauty of it is the
draw() method of the
Batch class. When calling it, care is taken of the blitting of every bullet in the batch. You don't have to call each bullet
draw() method yourself, because that can be done more efficiently in only one single call:
You will recognize that this example, much like the one @Xymostech gave in the first answer, populates a list with all bullet instances as well. You will still need a Collection structure like this to keep the references to your
Batch has no function that would return a list of the objects attached to it.
So, you will stick with the solution in the previous answer, except for the Image blitting of course.
Another advantage of using
Sprites is that you don't have to equip your
bullet class with its own positional fields, because you can use the corresponding parameters of your
Sprite objects. Beside allowing to update its
(x, y) coordinates,
Sprites can also rotate and fade out.
Actually, you should consider modifying your
bullet class into being an extension of the
Sprite class by inheriting from it.
class Bullet(pyglet.sprite.Sprite): # btw, class names usually start with an Uppercase letter
self.x = player.pos_x