from os import listdir
from os.path import join
from pygame.mixer import Channel, Sound, music, find_channel
from GameChild import *
from Input import *
class Audio(GameChild):
current_channel = None
paused = False
muted = False
def __init__(self, game):
GameChild.__init__(self, game)
self.delegate = self.get_delegate()
self.load_fx()
self.subscribe(self.respond)
def load_fx(self):
fx = {}
if self.get_configuration().has_option("audio", "sfx-path"):
root = self.get_resource("audio", "sfx-path")
if root:
for name in listdir(root):
fx[name.split(".")[0]] = Sound(join(root, name))
self.fx = fx
def respond(self, event):
if self.delegate.compare(event, "mute"):
self.mute()
def mute(self):
self.muted = True
self.set_volume()
def unmute(self):
self.muted = False
self.set_volume()
def set_volume(self):
volume = int(not self.muted)
music.set_volume(volume)
if self.current_channel:
self.current_channel.set_volume(volume)
def play_bgm(self, path, stream=False):
self.stop_current_channel()
if stream:
music.load(path)
music.play(-1)
else:
self.current_channel = Sound(path).play(-1)
self.set_volume()
def stop_current_channel(self):
music.stop()
if self.current_channel:
self.current_channel.stop()
self.current_channel = None
self.paused = False
def play_fx(self, name, panning=.5):
if not self.muted:
channel = find_channel(True)
if panning != .5:
offset = 1 - abs(panning - .5) * 2
if panning < .5:
channel.set_volume(1, offset)
else:
channel.set_volume(offset, 1)
channel.play(self.fx[name])
def pause(self):
channel = self.current_channel
paused = self.paused
if paused:
music.unpause()
if channel:
channel.unpause()
else:
music.pause()
if channel:
channel.pause()
self.paused = not paused
def is_bgm_playing(self):
current = self.current_channel
if current and current.get_sound():
return True
return music.get_busy()
import os
delattr(os, "link")
from dark_stew.pgfw.Setup import Setup
if __name__ == "__main__":
Setup().setup()
from dark_stew.pgfw.SetupWin import SetupWin
if __name__ == "__main__":
SetupWin().setup()
from math import sqrt
from random import choice
from pygame import Rect
from dark_stew.pgfw.GameChild import GameChild
from dark_stew.floor.Floor import Floor
from dark_stew.pool.Pools import Pools
from dark_stew.aphids.Aphids import Aphids
class World(GameChild, Rect):
def __init__(self, parent):
GameChild.__init__(self, parent)
self.input = self.get_input()
self.display_surface = self.get_display_surface()
self.directions = 0, 1, 2, 3
self.direction = self.directions[2]
self.load_configuration()
self.reset_active_directions()
self.init_rect()
self.pools = Pools(self)
self.floor = Floor(self)
self.aphids = Aphids(self)
self.get_audio().play_bgm(self.get_resource("world", "audio-path"),
True)
self.scroll_to_random_intersection()
def load_configuration(self):
config = self.get_configuration("world")
self.dimensions = config["dimensions"]
self.walk_step = config["walk-step"]
self.run_step = config["run-step"]
def reset_active_directions(self):
self.active_directions = [False, False, False, False]
self.scroll_active = False
def init_rect(self):
Rect.__init__(self, (0, 0), self.dimensions)
def scroll_to_random_intersection(self):
pools = self.pools
cx, cy = choice(pools).center
step = pools.step / 2
dx, dy = self.display_surface.get_rect().center
self.shift(cx + dx + step, cy + dy + step)
def get_corners(self):
x, y = self.topleft
w, h = self.size
return (x, y), (x, y - h), (x + w, y - h), (x + w, y), (x + w, y + h), \
(x, y + h), (x - w, y + h), (x - w, y), (x - w, y - h)
def update(self):
self.scroll()
self.floor.draw()
self.pools.update()
self.aphids.update()
def scroll(self):
if not self.aphids.sitting and not self.parent.monsters.current:
keys = self.input
axes = keys.get_axes()
self.scroll_active = True in axes.values()
shift = self.shift
step = self.walk_step
if keys.is_command_active("run"):
step = self.run_step
active = self.active_directions
up, right, down, left = self.directions
if axes["up"]:
shift(y=step)
active[up] = True
if not active[left] and not active[right]:
self.direction = up
else:
active[up] = False
if axes["right"]:
shift(x=-step)
active[right] = True
if not active[up] and not active[down]:
self.direction = right
else:
active[right] = False
if axes["down"]:
shift(y=-step)
active[down] = True
if not active[left] and not active[right]:
self.direction = down
else:
active[down] = False
if axes["left"]:
shift(x=step)
active[left] = True
if not active[up] and not active[down]:
self.direction = left
else:
active[left] = False
def shift(self, x=0, y=0, collide=True):
self.move_ip(x, y)
if collide:
self.collide_aphids(-x, -y)
viewport = self.display_surface.get_rect()
if self.left > viewport.w:
self.right = self.left
if self.top > viewport.h:
self.bottom = self.top
if self.right < 0:
self.left = self.right
if self.bottom < 0:
self.top = self.bottom
def collide_aphids(self, x, y):
for dx, dy in self.get_corners():
aphids = self.aphids.collision_rect.move(x - dx, y - dy)
for pool in self.pools:
if aphids.colliderect(pool.water.rect):
water = pool.water.rect
radius = water.w / 2.0
distance = sqrt((aphids.centerx - water.centerx) ** 2 + \
(aphids.centery - water.centery) ** 2)
if distance < radius:
self.shift(x, y)
return
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 |
