from esp_hadouken import levels
from Road import *
class Void(levels.Void.Void):
def __init__(self, parent):
levels.Void.Void.__init__(self, parent)
self.read_configuration()
self.road = Road(self)
def read_configuration(self):
config = self.get_configuration()
prefix = "diortem-level-"
self.padding = config[prefix + "void-padding"]
self.segment_width_range = config[prefix + "segment-width-range"]
self.segment_height_range = config[prefix + "segment-height-range"]
self.shift_range = config[prefix + "shift-range"]
self.leg_range = config[prefix + "leg-range"]
self.scroll_speed = config[prefix + "scroll-speed"]
def update_area(self):
self.road.update()
from random import randint
from pygame import Surface, Color, Rect
from esp_hadouken.GameChild import *
from Segment import *
class Road(GameChild, Surface):
def __init__(self, parent):
GameChild.__init__(self, parent)
self.init_surface()
self.set_background()
self.set_x_range()
self.generate_segments()
def init_surface(self):
parent = self.parent
width = parent.get_width()
padding = parent.padding
bandit_height = parent.parent.bandit.rect.h
height = parent.get_height() - sum(padding) - bandit_height
rect = Rect(0, padding[0] + bandit_height, width, height)
Surface.__init__(self, rect.size)
self.convert()
self.rect = rect
def set_background(self):
background = Surface(self.get_size())
background.fill(self.parent.opaque_color)
background.convert()
self.background = background
def set_x_range(self):
max_seg = self.parent.segment_width_range[1]
self.x_range = max_seg / 2, self.get_width() - max_seg / 2
def generate_segments(self):
self.segments = []
self.leg = Leg(self)
y = self.get_height()
while y > 0:
self.add_segment(y)
y -= self.segments[0].rect.h
def add_segment(self, bottom=None):
leg = self.leg
segments = self.segments
if leg.is_complete():
leg = Leg(self)
if bottom is None:
bottom = segments[0].rect.top
x = segments[0].rect.centerx if segments else 0
segments.insert(0, Segment(self, leg, bottom, x))
leg.advance()
self.leg = leg
def update(self):
self.set_clip()
self.clear()
self.update_segments()
self.draw()
def set_clip(self):
parent = self.parent
y = parent.get_clip().top - parent.padding[0] - parent.parent.bandit.rect.h
Surface.set_clip(self, Rect((0, y), parent.get_clip().size))
def clear(self):
self.blit(self.background, (0, 0))
def update_segments(self):
if self.segments[0].rect.top >= -self.parent.segment_height_range[1]:
self.add_segment()
for segment in self.segments:
if segment.rect.top > self.get_height():
self.segments.remove(segment)
else:
segment.update()
def draw(self):
self.parent.blit(self, self.rect)
class Leg:
dirs = [-1, 1]
def __init__(self, road):
self.road = road
self.length = randint(*road.parent.leg_range)
self.direction = self.dirs[randint(0, len(self.dirs) - 1)]
self.index = 0
def advance(self):
self.index += 1
self.shift = randint(*self.road.parent.shift_range) * self.direction
def change_direction(self):
dirs = self.dirs
direction = self.direction
if direction == dirs[0]:
direction = dirs[1]
else:
direction = dirs[0]
self.direction = direction
def is_complete(self):
return self.index >= self.length
from operator import sub
from random import randint
from pygame import Surface, Rect, Color, transform, draw
from esp_hadouken.GameChild import *
class Segment(GameChild):
def __init__(self, parent, leg, bottom, x):
GameChild.__init__(self, parent)
self.init_rect(leg, bottom, x)
self.color = parent.parent.transparent_color
def init_rect(self, leg, bottom, x):
parent = self.parent
rect = Rect(0, 0, 0, randint(*parent.parent.segment_height_range))
x_range = parent.x_range
if x is None:
x = randint(*x_range)
else:
x += leg.direction * randint(*parent.parent.shift_range)
if x < x_range[0] or x > x_range[1]:
leg.change_direction()
if x < x_range[0]:
x = x_range[0]
else:
x = x_range[1]
rect.centerx = x
rect.bottom = bottom
self.rect = rect
def update(self):
self.update_width()
self.recenter()
self.scroll()
self.draw()
def update_width(self):
parent = self.parent
rect = self.rect
pos = float(rect.bottom) / parent.get_height()
centerx = rect.centerx
width_r = parent.parent.segment_width_range
rect.w = pos * -sub(*width_r) + width_r[0]
rect.centerx = centerx
def recenter(self):
rect = self.rect
right_bound = self.parent.get_width()
if rect.left < 0:
rect.left = 0
elif rect.right > right_bound:
rect.right = right_bound
def scroll(self):
self.rect.top += self.parent.parent.scroll_speed
def draw(self):
draw.rect(self.parent, self.color, self.rect)
from random import randint
from pygame import Surface, Color
from esp_hadouken.levels.Void import *
from Barrier import *
class Gauntlet(Void):
step_count = 0
def __init__(self, parent):
Void.__init__(self, parent)
self.read_configuration()
self.set_area()
self.generate_barriers()
def read_configuration(self):
config = self.get_configuration()
prefix = "horse-level-"
self.padding = config[prefix + "void-padding"]
self.size_range = config[prefix + "size-range"]
self.step_limit = config[prefix + "step-limit"]
def set_area(self):
self.set_y_range()
y_range = self.y_range
height = y_range[1] - y_range[0]
area = Surface((self.parent.get_width(), height)).convert()
self.area_bg = Surface(area.get_size()).convert()
self.area = area
def set_y_range(self):
padding = self.padding
start = self.parent.bandit.rect.h + padding[0]
end = self.get_height() - padding[1]
self.y_range = start, end
def generate_barriers(self):
self.barriers = barriers = []
y = 0
while y < self.area.get_height():
sibling = None if not barriers else barriers[-1]
barriers.append(Barrier(self, y, sibling))
y += barriers[-1].get_height()
def update_area(self):
self.update_step_count()
self.clear_area()
self.update_barriers()
self.draw_area()
def update_step_count(self):
count = self.step_count + 1
if count > self.step_limit:
count = 0
self.toggle_barrier_headings()
self.step_count = count
def toggle_barrier_headings(self):
for barrier in self.barriers:
barrier.toggle_heading()
def clear_area(self):
self.area.blit(self.area_bg, (0, 0))
def update_barriers(self):
for barrier in self.barriers:
barrier.update()
def draw_area(self):
self.blit(self.area, (0, self.y_range[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 |
