#!/usr/bin/env python3 import pygame, random from support import operations class Avocado: def __init__(self, screen, color, size, select, filename='img/AvoCado_0.png'): # We randomly decide whether we should instanciate or not if random.randint(0,1) == 0: self.is_falling = False return None print('New avocado is ' + ','.join(str(color))) self.screen = screen self.color = color self.select = select self.screen_width, self.screen_height = screen.get_size() self.x = random.randint(0, self.screen_width) self.y = 0 # change this to start somewhere above the screen self.w , self.y = size # Initialize the image self.i = pygame.image.load(filename).convert_alpha() operations.color_surface(self.i, color) self.image = pygame.transform.scale(self.i, (self.w, self.y)) self.rect = self.image.get_rect() # Set the avocado's initial position and velocity self.init_pos() self.vx = 10 self.vy = 10 self.is_falling = True def blitme(self): self.screen.blit(self.image, self.rect) def init_pos(self): self.rect.x = random.randint(0, self.screen_width) self.rect.y = random.randint(20, 70) def collides(self, click): """ Checks whether this object collides with the given position in click """ mousex, mousey = click if self.pycard.left < mousex and self.pycard.right > mousex and \ self.pycard.top < mousey and self.pycard.bottom > mousey and \ self.color == self.select: self.destroy() return True def destroy(self): """destroys this object""" del(self) def exists(self): return self.is_falling def move(self): if self.rect.right > self.screen_width or self.rect.left < 0: self.vx = -self.vy if self.hasLanded(): self.destroy() self.rect.x += self.vx self.rect.y += self.vy return True def hasLanded(self): if self.rect.bottom > self.screen_height or self.rect.top < 0: self.is_falling = False print('platch') return True