Имеется следующий код. И проблема у меня возникла с методом eating и think класса smallFish. При выполнения моего кода, мало того что рыбки поедат водоросли они еще и умудряються размножаться, не могу понять с чем это связанно. Логика поедание водросли: если вокруг есть водросль рыбка ее ест ( становиться на место водросли и старое место мы забиваем обьектом place а в новом месте уже эта рыбка - smallFish)
import pygame
from pygame import *
import random
width,height = 100, 50;
directions = [
[-1,0],
[1,0],
[0,1],
[0,-1],
[-1,1],
[-1,-1],
[1,-1],
[1,1],
[0,0],
]
def derictionRandomazer(arr):
random.shuffle(arr);
return arr;
def addObjects(obj,objCount,count):
while count <= objCount:
x = random.randint(1,width-2);
y = random.randint(1,height-2);
if type(pond[x][y]) == Place:
pond[x][y] = obj(x,y);
pond[x][y].spawn();
count += 1
pygame.display.flip();
pygame.init();
screen = pygame.display.set_mode( (width * 10, height * 10) )
pygame.display.set_caption("Life in Pond");
class Place:
color = (52,152,219)
def __init__(self, x,y):
self.x = x;
self.y = y ;
def spawn(self):
square = pygame.Rect(self.x*10, self.y*10, 10, 10);
pygame.draw.rect(screen, self.color, square);
class Stone(Place):
color = (0,0,0);
class Seaweed(Place):
lifePeriod = 40;
color = (2,124,2);
reproductivePeriod = 10;
def __init__(self,x,y):
super().__init__(x,y);
self.age = 0;
def aging(self):
self.age += 1;
if self.age == self.lifePeriod:
self.dying();
def dying(self):
pond[self.x][self.y] = Place(self.x, self.y);
pond[self.x][self.y].spawn();
pond = [[ 0 for x in range(height)] for y in range(width)]
for y in range(height):
for x in range(width):
pond[x][y] = Place(x,y);
pond[x][y].spawn();
pygame.display.flip();
num = 0;
class smallFish(Seaweed):
lifePeriod = 30;
color = (0, 77, 255);
reproductivePeriod = 5;
def __init__(self,x,y):
super().__init__(x,y)
self.age = 0;
self.hunger = 8;
def reproduction(self,obj):
if self.age % self.reproductivePeriod == 0:
for direction in derictionRandomazer(directions):
new_x = self.x + direction[0];
new_y = self.y + direction[1];
if 0 <= new_x < width and 0 <= new_y < height:
if type(pond[new_x][new_y]) == Place:
pond[new_x][new_y] = obj(new_x,new_y);
pond[new_x][new_y].spawn();
def aging(self):
self.age += 1;
if self.age == self.lifePeriod:
self.dying();
def hungering(self):
self.hunger -= 1;
if self.hunger == 0:
self.dying();
def think(self,obj):
for direction in directions:
new_x = self.x + direction[0];
new_y = self.y + direction[1];
if 0 <= new_x < width and 0 <= new_y < height:
if type(pond[new_x][new_y]) == Seaweed:
self.eating(self.x,self.y,new_x,new_y,obj);
for direction in derictionRandomazer(directions):
new_x = self.x + direction[0];
new_y = self.y + direction[1];
if 0 <= new_x < width and 0 <= new_y < height:
if type(pond[new_x][new_y]) == Place:
self.swim(self.x,self.y,new_x,new_y,obj);
def reproduction(self,obj):
if self.age % self.reproductivePeriod == 0:
for direction in derictionRandomazer(directions):
new_x = self.x + direction[0];
new_y = self.y + direction[1];
if 0 <= new_x < width and 0 <= new_y < height:
if type(pond[new_x][new_y]) == Place:
pond[new_x][new_y] = obj(new_x,new_y);
pond[new_x][new_y].spawn();
def eating(self,x,y,new_x,new_y,obj):
pond[x][y] = Place(x,y);
pond[x][y].spawn();
pond[new_x][new_y] = smallFish(new_x,new_y);
pond[new_x][new_y].spawn();
self.hunger =+ 1;
def swim(self,x,y,new_x,new_y,obj):
pond[x][y] = Place(x,y);
pond[x][y].spawn();
pond[new_x][new_y] = obj(new_x,new_y);
pond[new_x][new_y].spawn();
addObjects(smallFish,1,0);
addObjects(Stone,50,0);
addObjects(Seaweed,1,0);
while True:
for y in range(height):
for x in range(width):
# or type(pond[x][y]) == predatoryFish
if type(pond[x][y]) == Seaweed:
pond[x][y].aging();
if type(pond[x][y]) == Seaweed :
pond[x][y].reproduction(Seaweed);
if type(pond[x][y]) == smallFish:
pond[x][y].aging();
# pond[x][y].reproduction(smallFish);
pond[x][y].hungering();
if type(pond[x][y]) == smallFish:
pond[x][y].think(smallFish);
pygame.display.flip();
