from esp_hadouken.levels.Level import *
from Void import *
class Tooth(Level):
def __init__(self, parent):
Level.__init__(self, parent)
def set_void(self):
self.void = Void(self)
from esp_hadouken.levels.Level import *
from Void import *
class Octo(Level):
def __init__(self, parent):
Level.__init__(self, parent)
def set_void(self):
self.void = Void(self)
def set_dot(self):
Level.set_dot(self, (None, (0, self.get_height())), (True, False))
from random import randint
from pygame import Surface
from esp_hadouken import levels
from Barrier import *
class Void(levels.Void.Void):
def __init__(self, parent):
levels.Void.Void.__init__(self, parent)
self.frame_width = self.parent.get_width()
self.read_configuration()
self.init_barriers()
def read_configuration(self):
config = self.get_configuration()
self.barrier_height = config["octo-level-barrier-height"]
self.min_gap = config["octo-level-min-gap"]
self.spawn_range = config["octo-level-spawn-range"]
self.void_padding = config["octo-level-void-padding"]
self.scroll_speed = config["octo-level-scroll-speed"]
def init_barriers(self):
self.set_y_range()
y_range = self.y_range
y = y_range[0]
barriers = []
y = self.generate_spawn_distance()
while y < y_range[1]:
barriers.append(Barrier(self, y))
y += self.generate_spawn_distance()
self.barriers = barriers
self.next_spawn = self.generate_spawn_distance()
def set_y_range(self):
padding = self.void_padding
parent = self.parent
start = parent.bandit.rect.bottom + padding[0]
end = parent.get_height() - padding[1]
self.y_range = start, end
def generate_spawn_distance(self):
return randint(*self.spawn_range)
def update_area(self):
barriers = self.barriers
if barriers[0].y - self.y_range[0] > self.next_spawn:
barriers.insert(0, Barrier(self, self.y_range[0]))
self.next_spawn = self.generate_spawn_distance()
for barrier in barriers:
if barrier.y > self.y_range[1]:
barriers.remove(barrier)
else:
barrier.update()
from random import randint
from pygame import Surface, Color, Rect
from esp_hadouken.GameChild import *
class Barrier(GameChild, Surface):
transparent_color = Color("magenta")
def __init__(self, parent, y=0):
GameChild.__init__(self, parent)
Surface.__init__(self, (parent.frame_width, parent.barrier_height))
self.set_colorkey(self.transparent_color)
self.convert()
self.y = y
self.set_gap()
def set_gap(self):
gap = Surface(self.get_size())
gap.fill(self.transparent_color)
self.gap_center = randint(0, self.get_width())
self.gap = gap.convert()
def update(self):
self.y += self.parent.scroll_speed
self.blit_gap()
self.draw()
def blit_gap(self):
gap = self.gap
width = self.calculate_width()
position = (self.gap_center - width / 2, 0)
area = Rect(0, 0, width, gap.get_height())
self.blit(gap, position, area)
self.blit_overflow(width, position[0])
def calculate_width(self):
y_range = self.parent.y_range
ratio = (self.y - y_range[0]) / float(y_range[1] - y_range[0])
min_gap = self.parent.min_gap
return int(min_gap + (self.get_width() - min_gap) * ratio)
def blit_overflow(self, width, x):
gap = self.gap
frame_width = self.parent.frame_width
if x < 0 or x + width > frame_width:
if x < 0:
overflow = 0 - x
position = (frame_width - overflow, 0)
else:
overflow = x + width - frame_width
position = (0, 0)
self.blit(gap, position, Rect(0, 0, overflow, self.get_height()))
def draw(self):
self.parent.blit(self, (0, self.y))
from math import pi, sin, cos
from random import random, randint
from pygame import time, draw, Rect
from esp_hadouken import levels
class Trap(levels.Void.Void):
def __init__(self, parent):
levels.Void.Void.__init__(self, parent)
self.read_configuration()
self.reset()
def read_configuration(self):
config = self.get_configuration()
prefix = "circulor-level-"
self.radius_range = config[prefix + "radius-range"]
self.trap_duration = config[prefix + "trap-duration"]
self.speed = config[prefix + "speed"]
self.thickness = config[prefix + "trap-thickness"]
def reset(self):
self.center = None
self.total_elapsed = 0
self.last_ticks = time.get_ticks()
self.angle = random() * pi * 2
def update_area(self):
if self.parent.trapped:
self.place()
self.collide()
if self.total_elapsed >= self.trap_duration:
self.parent.trapped = False
self.parent.escaped = True
else:
self.update_total_elapsed()
self.draw_circle()
def place(self):
center = self.get_center()
x_del, y_del = self.calculate_deltas()
self.center = center[0] + x_del, center[1] + y_del
def get_center(self):
center = self.center
if not center:
center = self.parent.dot.rect.center
return center
def calculate_deltas(self):
ang, distance = self.angle, self.speed
return sin(ang) * distance, cos(ang) * distance
def collide(self):
angle = self.angle
x, y = self.center
radius = self.get_radius()
rect = Rect(x - radius, y - radius, radius * 2, radius * 2)
bandit = self.parent.bandit.rect
if rect.colliderect(bandit):
if bandit.left - rect.right > rect.top - bandit.bottom:
angle = -angle
rect.right = bandit.left
else:
angle = pi - angle
rect.top = bandit.bottom
field = self.parent.rect
if rect.right > field.w or rect.left < 0:
angle = -angle
if rect.right > field.w:
rect.right = field.w
else:
rect.left = 0
if rect.top < 0 or rect.bottom > field.h:
angle = pi - angle
if rect.top < 0:
rect.top = 0
else:
rect.bottom = field.h
self.angle = angle
self.center = rect.center
def update_total_elapsed(self):
current_ticks = time.get_ticks()
self.total_elapsed += current_ticks - self.last_ticks
self.last_ticks = current_ticks
def draw_circle(self):
center = tuple(map(int, self.center))
color = self.opaque_color
draw.circle(self, color, center, self.get_radius(), self.thickness)
def get_radius(self):
radius_r = self.radius_range
pos = float(self.total_elapsed) / self.trap_duration
return int(pos * (radius_r[1] - radius_r[0]) + radius_r[0])
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 |
