from esp_hadouken.pgfw.GameChild import GameChild
from esp_hadouken.title.background.Sky import Sky
from esp_hadouken.title.background.Mask import Mask
class Background(GameChild):
def __init__(self, parent):
GameChild.__init__(self, parent)
self.sky = Sky(self)
self.mask = Mask(self)
def update(self):
self.sky.update()
self.mask.update()
from pygame import Surface, Color, PixelArray
from pygame.image import load
from esp_hadouken.pgfw.GameChild import GameChild
class Mask(Surface, GameChild):
def __init__(self, parent):
GameChild.__init__(self, parent)
self.display_surface = self.get_screen()
self.transparent_color = 0xFF00FF
self.load_configuration()
self.init_surface()
self.modify()
def init_surface(self):
Surface.__init__(self, self.display_surface.get_size())
self.set_colorkey(self.transparent_color)
self.blit(load(self.vector_path).convert(), (0, 0))
def load_configuration(self):
get = self.get_resource
config = self.get_configuration("title")
self.vector_path = get("title", "mask-vector-path")
self.vector_color = Color(config["mask-vector-colors"][2])
self.foreground_path = get("title", "mask-foreground-path")
def modify(self):
pixels = PixelArray(self)
white = 0xFFFFFF
pixels.replace(white, self.vector_color)
reference = PixelArray(load(self.foreground_path).convert())
for ii, column in enumerate(reference):
for jj, pixel in enumerate(column):
if pixel == 0xFFFFFF:
pixels[ii][jj] = self.transparent_color
def update(self):
self.draw()
def draw(self):
self.display_surface.blit(self, (0, 0))
from random import choice
from pygame import Color, PixelArray
from esp_hadouken.pgfw.GameChild import GameChild
class Blinker(GameChild):
def __init__(self, parent, initial_freq, max_freq):
GameChild.__init__(self, parent)
self.frequency = initial_freq
self.max_freq = max_freq
self.iterations = 0
self.set_palettes()
def set_palettes(self):
config = self.get_configuration("sprite")
self.inner_palette = map(
self.translate_hex_color, config["inner-palette"])
self.outer_palette = map(
self.translate_hex_color, config["outer-palette"])
self.palette = (Color("black"), Color("white"))
def translate_hex_color(self, color):
return Color(color + "ff")
def build_palette(self):
return (choice(self.inner_palette), choice(self.outer_palette))
def paint(self):
image = self.parent.image
pixels = PixelArray(image)
old_palette = self.palette
new_palette = self.build_palette()
pixels.replace(old_palette[0], new_palette[0])
pixels.replace(old_palette[1], new_palette[1])
self.palette = new_palette
image.unlock()
def blink(self):
iterations = self.iterations + 1
if 1.0 / iterations <= self.frequency:
self.paint()
iterations = 0
self.iterations = iterations
from math import floor
import copy
import pygame
from esp_hadouken.sprite.Blinker import Blinker
from esp_hadouken.pgfw.GameChild import GameChild
class Sprite(GameChild):
def __init__(self, parent, image_path, display_surface, bounds=(None, None),
wrap=(False, False), initial_blink_freq=0, max_blink_freq=1):
GameChild.__init__(self, parent)
self.image_path = image_path
self.display_surface = display_surface
self.bounds = bounds
self.wrap = wrap
self.restricted_areas = []
self.blinker = Blinker(self, initial_blink_freq, max_blink_freq)
self.add_image()
self.hide()
def add_image(self):
image = pygame.image.load(self.image_path).convert_alpha()
self.rect = image.get_rect()
self.old_rect = self.rect
self.image = image
def paint(self):
self.blinker.paint()
def move(self, x=0, y=0):
self.old_rect = copy.copy(self.rect)
if isinstance(x, tuple) or isinstance(x, list):
x, y = x[0], x[1]
if x < 0:
x = floor(x)
if y < 0:
y = floor(y)
rect = self.rect
self.place(rect.left + x, rect.top + y)
self.rect = self.accommodate_wrapping(rect)
def place(self, x=None, y=None):
rect = self.rect
if type(x) is tuple or type(x) is list:
x, y = x[0], x[1]
if x is None:
x = rect.left
if y is None:
y = rect.top
self.rect.topleft = x, y
def accommodate_wrapping(self, rect):
horizontal, vertical = self.wrap
scope = self.display_surface.get_rect()
if vertical:
if rect.top < -rect.h:
rect.top += scope.h
elif rect.top > scope.h:
rect.top -= scope.h
if horizontal:
if rect.left < 0:
rect.left += scope.w - rect.w - 1
elif rect.right > scope.w:
rect.right -= scope.w - rect.w - 1
return rect
def add_restricted_areas(self, rects):
if type(rects) is not list:
rects = [rects]
self.restricted_areas += rects
def flip(self):
self.image = pygame.transform.flip(self.image, True, False)
def resize(self, size):
self.image = pygame.transform.scale(self.image, size)
def show(self):
self.visible = True
def hide(self):
self.visible = False
def set_blink_frequency(self, frequency):
self.blinker.frequency = frequency
def update(self):
if self.visible:
self.blinker.blink()
self.draw()
def draw(self):
self.display_surface.blit(self.image, self.rect)
def erase(self):
self.parent.clear(self.old_rect)
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 |
