from math import sqrt, pi, sin, cos
from random import random
from pygame import Surface, Rect, event, surfarray, image
from esp_hadouken.GameChild import *
from esp_hadouken.Input import *
from esp_hadouken.dot.Dot import *
from Bandit import *
from Void import *
from Exit import *
from Distance import *
class Level(GameChild, Surface):
def __init__(self, parent):
GameChild.__init__(self, parent)
self.get_delegate().disable()
self.get_input().suppress()
self.init_surface()
self.display_surface = self.get_screen()
self.set_background()
self.previous_displacement = (0, 0)
self.rect = self.get_rect()
self.add_children()
self.set_max_target_distance()
self.set_void()
self.set_dot()
self.set_bgm()
self.reset()
self.subscribe_to(Input.command_event, self.pause)
self.get_delegate().enable()
self.get_input().unsuppress()
self.get_timer().start(self.get_name())
def init_surface(self):
size = self.get_configuration()[self.get_name() + "-level-dimensions"]
Surface.__init__(self, size)
def get_name(self):
return self.__class__.__name__.lower()
def set_background(self):
bg = Surface(self.get_size())
palette = self.build_bg_palette()
checker_width = self.get_configuration()["level-checker-width"]
for ii in range((self.get_width() / checker_width) + 1):
for jj in range((self.get_height() / checker_width) + 1):
index = (jj + ii) % len(palette)
position = ii * checker_width, jj * checker_width
dimensions = checker_width, checker_width
bg.fill(palette[index], Rect(position, dimensions))
self.background = bg.convert()
def add_children(self):
self.bandit = Bandit(self)
self.exit = Exit(self)
self.distance = Distance(self)
def set_max_target_distance(self):
target = self.bandit.rect.center
max_target_distance = 0
rect = self.get_rect()
corners = [rect.topleft, rect.topright, rect.bottomright, rect.bottomleft]
for corner in corners:
distance = self.euclidean_distance(target, corner)
if distance > max_target_distance:
max_target_distance = distance
self.max_target_distance = max_target_distance
def euclidean_distance(self, p1, p2):
return sqrt((p1[0] - p2[0]) ** 2 + (p1[1] - p2[1]) ** 2)
def build_bg_palette(self):
return map(Color,
self.get_configuration()[self.get_name() + "-level-palette"])
def set_void(self):
self.void = Void(self)
def set_dot(self, bounds=None, wrap=(False, False)):
if not bounds:
bounds = (0, self.get_width()), (0, self.get_height())
dot = Dot(self, bounds, wrap)
self.dot = dot
self.set_dot_frequency()
def get_blink_frequency_range(self):
return self.get_configuration()["level-blink-frequency-range"]
def set_dot_frequency(self):
distance = self.get_distance_to_target()
distance_ratio = 1 - (distance / self.max_target_distance)
rnge = self.get_blink_frequency_range()
frequency = distance_ratio * (rnge[1] - rnge[0]) + rnge[0]
self.dot.set_blink_frequency(frequency)
def get_distance_to_target(self):
distance = self.dot.rect.top - self.bandit.rect.bottom
if distance < 0:
distance = 0
return distance
def set_bgm(self):
path = self.get_resource("level-audio-path")
self.get_audio().play_bgm(path, True)
def reset(self):
self.reset_dot()
self.set_clip()
self.paused = False
def reset_dot(self):
name = self.get_name()
dot = self.dot
dot.halt()
dot.rect.center = self.get_configuration()[name + "-level-dot-position"]
dot.show()
def set_clip(self):
rect = self.rect
visible = Rect((-rect.left, -rect.top), self.display_surface.get_size())
Surface.set_clip(self, visible)
def pause(self, event):
if event.command == "pause":
self.get_audio().pause()
self.get_timer().pause()
self.get_pause_screen().show()
self.paused = not self.paused
def update(self):
if not self.paused:
self.dot.move([-val for val in self.previous_displacement])
self.place()
self.set_clip()
self.clear()
self.void.update()
self.bandit.update()
self.distance.update()
self.displace_dot()
self.dot.update()
self.set_dot_frequency()
self.collide_dot()
self.draw()
def displace_dot(self):
angle = random() * pi * 2
distance = self.get_distance_to_target()
distance_ratio = 1 - (distance / self.max_target_distance)
displacement = distance_ratio * self.get_max_dot_displacement()
x = round(sin(angle) * displacement)
y = round(cos(angle) * displacement)
self.dot.move(x, y)
self.previous_displacement = x, y
def get_max_dot_displacement(self):
return self.get_configuration()["level-max-dot-displacement"]
def place(self):
dot = self.dot.rect
size = self.display_surface.get_size()
pos = [-dot.centerx + size[0] / 2, -dot.centery + size[1] / 2]
min_x = size[0] - self.get_width()
if pos[0] < min_x:
pos[0] = min_x
elif pos[0] > 0:
pos[0] = 0
min_y = size[1] - self.get_height()
if pos[1] < min_y:
pos[1] = min_y
elif pos[1] > 0:
pos[1] = 0
self.rect.topleft = pos
def collide_dot(self):
self.collide_dot_with_bandit()
self.collide_dot_with_void()
self.collide_dot_with_exit()
def collide_dot_with_bandit(self):
if self.dot.rect.colliderect(self.bandit.rect):
self.get_audio().play_fx("drill")
self.parent.clear_level()
event.post(event.Event(USEREVENT, name="level-complete",
bandit_name=self.get_name()))
def collide_dot_with_void(self):
dot = self.dot
rect = dot.rect
surfar = surfarray.pixels2d(self.void)
for x, y in dot.outline:
if not surfar[x + rect.left][y + rect.top]:
self.get_audio().play_fx("tub")
self.reset()
del surfar
def collide_dot_with_exit(self):
if self.dot.rect.colliderect(self.exit.rect):
self.get_audio().play_fx("Ag")
self.parent.clear_level()
event.post(event.Event(USEREVENT, name="level-exited"))
def clear(self):
self.blit(self.background, self.get_clip(), self.get_clip())
def draw(self):
self.exit.draw()
self.display_surface.blit(self, self.rect)
def end(self):
self.get_timer().stop()
self.unsubscribe_from_events()
def unsubscribe_from_events(self):
self.unsubscribe_from(Input.command_event, self.pause)
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 |
