Male_zoo_Projekt_SI/enclosure.py
karolajoj a8814a763b -Uproszczenie kodu
-Dodanie wizualizacji dostępnych pól
-Zwiększenie rozmiaru klatek
-Zwiększenie ilości zwierząt
-Poprawienie spawnowania zwierząt
2024-04-16 14:50:06 +02:00

35 lines
1.5 KiB
Python

import pygame
class Enclosure:
def __init__(self, x1, y1, x2, y2, gate, type, imageH, imageV, imageGate):
self.x1 = x1 - 1
self.y1 = y1 - 1
#(x1,y1) - wierzchołek przekątnej
self.x2 = x2 - 1
self.y2 = y2 - 1
#(x2,y2) - 2 wierzchołek przekątnej
self.gate = gate
self.type = type
self.imageH = imageH
self.imageV = imageV
self.imageGate = imageGate
def gatebuild(self, screen, grid_size):
self.imageGate = pygame.transform.scale(self.imageGate, (grid_size, grid_size))
gate_x, gate_y = self.gate
gate_x-=1
gate_y-=1
rect = pygame.Rect(gate_x * grid_size, gate_y * grid_size, grid_size, grid_size)
pygame.draw.rect(screen, (0, 0, 0), rect) # Fill the area with
screen.blit(self.imageGate, (gate_x * grid_size, gate_y * grid_size))
def draw(self,screen, grid_size):
self.imageH = pygame.transform.scale(self.imageH, (grid_size, grid_size))
self.imageV = pygame.transform.scale(self.imageV, (grid_size, grid_size))
if self.x1 < self.x2:
for i in range(self.x1, self.x2+1):
screen.blit(self.imageH, (i * grid_size, self.y1 * grid_size))
screen.blit(self.imageH, (i * grid_size, self.y2 * grid_size))
for j in range(self.y1, self.y2+1):
screen.blit(self.imageV, (self.x1 * grid_size, j * grid_size))
screen.blit(self.imageV, (self.x2 * grid_size, j * grid_size))