from GameChild import GameChild
class Animation(GameChild):
def __init__(self, parent, method=None, interval=None, unfiltered=False):
GameChild.__init__(self, parent)
self.unfiltered = unfiltered
self.default_method = method or self.build_frame
self.accounts = {}
self.register(self.default_method, interval=interval)
self.current_elapsed = 0
self.last_update = 0
def build_frame(self):
pass
def register(self, *args, **kwargs):
interval = None
if kwargs.has_key("interval"):
interval = kwargs["interval"]
for method in args:
if method not in self.accounts:
self.accounts[method] = Account(interval, self)
else:
self.accounts[method].set_interval(interval)
def play(self, method=None, interval=None, delay=0, play_once=False,
**kwargs):
account = self.accounts[self.get_default(method)]
account.set_delay(delay)
account.set_args(kwargs)
account.set_play_once(play_once)
if interval:
account.set_interval(interval)
account.play()
def get_default(self, method=None):
if not method:
method = self.default_method
return method
def halt(self, method=None):
if not method:
for account in self.accounts.values():
account.halt()
else:
if self.accounts.has_key(method):
self.accounts[method].halt()
def is_playing(self, method=None, check_all=False, include_delay=False):
if check_all:
return any(self.is_account_playing(account, include_delay) for \
method, account in self.accounts.iteritems())
return self.is_account_playing(self.accounts[self.get_default(method)],
include_delay)
def is_account_playing(self, account, include_delay):
return account.playing and (not include_delay or not account.delay)
def reset_timer(self, method):
if not method:
for account in self.accounts.values():
account.reset_timer()
else:
self.accounts[method].reset_timer()
def update(self):
for method, account in self.accounts.iteritems():
if account.update():
method(**account.args)
class Account:
def __init__(self, interval, animation):
self.animation = animation
self.time_filter = animation.get_game().time_filter
self.set_interval(interval)
self.set_delay(0)
self.set_play_once(False)
self.interval_index = 0
self.last_frame = 0
self.halt()
def set_interval(self, interval):
if isinstance(interval, int) or isinstance(interval, str):
interval = [interval]
self.interval = interval
def set_delay(self, delay):
self.delay = delay
def set_play_once(self, play_once):
self.play_once = play_once
def set_args(self, args):
self.args = args
def play(self):
self.playing = True
def halt(self):
self.last_update = None
self.playing = False
def update(self):
if self.playing:
if self.animation.unfiltered:
ticks = self.time_filter.get_unfiltered_ticks()
else:
ticks = self.time_filter.get_ticks()
self.update_delay(ticks)
if not self.delay:
interval = self.interval
if interval:
if ticks - self.last_frame < self.get_current_interval():
return False
self.last_frame = ticks
self.increment_interval_index()
if self.play_once:
self.halt()
return True
def get_current_interval(self):
return self.interval[self.interval_index]
def increment_interval_index(self, increment=1):
index = self.interval_index + increment
while index >= len(self.interval):
index -= len(self.interval)
self.interval_index = index
def reset_interval(self):
self.interval_index = 0
def reset_timer(self):
if self.animation.unfiltered:
ticks = self.time_filter.get_unfiltered_ticks()
else:
ticks = self.time_filter.get_ticks()
self.last_frame = ticks
def update_delay(self, ticks):
delay = self.delay
if delay > 0:
last_update = self.last_update or ticks
delay -= ticks - last_update
if delay < 0:
delay = 0
self.last_update = ticks
self.delay = delay
from pygame.event import get, pump, Event, post
from pygame.locals import *
from GameChild import GameChild
from Input import Input
class Delegate(GameChild):
def __init__(self, game):
GameChild.__init__(self, game)
self.subscribers = dict()
self.load_configuration()
self.disable()
def load_configuration(self):
config = self.get_configuration("event")
self.cancel_flag_key = config["cancel-flag-key"]
self.command_key = config["command-key"]
self.command_event_id = config["command-id-offset"] + \
globals()[config["user-event-id"]]
def disable(self):
self.enabled = False
def enable(self):
self.enabled = True
self.interpolator = self.get_game().interpolator
def dispatch(self):
if self.enabled:
subscribers = self.subscribers
for evt in get():
kind = evt.type
if kind in subscribers:
for subscriber in subscribers[kind]:
if not self.interpolator.is_gui_active() or \
hasattr(subscriber, "im_class") and \
(subscriber.im_class == Input or \
subscriber.im_class == \
self.interpolator.gui.__class__):
self.print_debug("Passing %s to %s" % (evt,
subscriber))
subscriber(evt)
else:
pump()
def add_subscriber(self, callback, kind=None):
self.print_debug("Subscribing %s to %s" % (callback, kind))
if kind is None:
kind = self.command_event_id
subscribers = self.subscribers
if kind not in subscribers:
subscribers[kind] = list()
subscribers[kind].append(callback)
def is_command(self, event):
return event.type == self.command_event_id
def remove_subscriber(self, callback, kind=None):
if kind is None:
kind = self.command_event_id
self.subscribers[kind].remove(callback)
def compare(self, evt, commands=None, cancel=False, **attributes):
if evt.type == self.command_event_id:
self.add_cancel_flag_to_attributes(attributes, cancel)
if commands is not None and not isinstance(commands, list):
commands = [commands]
if commands is not None:
if not self.command_in_list(evt, commands):
return False
return all(key in evt.dict and evt.dict[key] == value for \
key, value in attributes.iteritems())
def add_cancel_flag_to_attributes(self, attributes, cancel):
attributes[self.cancel_flag_key] = cancel
def command_in_list(self, evt, commands):
return self.get_command_attribute(evt) in commands
def get_command_attribute(self, evt):
return evt.dict[self.command_key]
def post(self, command=None, cancel=False, **attributes):
attributes[self.command_key] = command
self.add_cancel_flag_to_attributes(attributes, cancel)
post(Event(self.command_event_id, attributes))
Food Spring - Watermelon Stage
Getting the fruit as far as possible is the object of each level, collecting bigger, more valuable guns. The final result is determined by the size of the fruits' collection when the monkey arrives in North America and either survives or perishes in the fruits' attack.
| Watermelon | Peach |
| Pineapple | Grapes |
