import pygame from random import randint from time import time from bullets import * from particles import * import time import sys ############ windowX = 832 windowY = 832 ############ imgs for player-enemy(self,bullet) bullet_image = pygame.image.load('pics/second_bullet.png') enemy_bul_img = pygame.image.load('pics/bullet.png') enemy_image = pygame.image.load('pics/32x64.png') player_image = pygame.image.load('pics/32x64.png') ############ class Player: def __init__(self): self.bul_cooldown = 14 self.tp_cooldown = 100 self.x = 300 self.y = 300 self.vel = 10 self.height = 64 self.width = 32 self.player_rect = pygame.Rect(self.x, self.y, self.width, self.height) def update(self): keys = pygame.key.get_pressed() if keys[pygame.K_LEFT] and self.x - self.vel > 5 : self.x -= self.vel if keys[pygame.K_RIGHT] and self.x + self.vel < windowX- self.width - 5 : self.x += self.vel if keys[pygame.K_UP] and self.y + self.height - self.vel > self.height + 5 : self.y -= self.vel if keys[pygame.K_DOWN] and self.y + self.height + self.vel < windowY-15 : self.y += self.vel def draw(self,window): pygame.draw.rect(window,(0,0,0),(self.x,self.y,self.width,self.height)) window.blit(player_image,(self.x, self.y)) self.player_rect = pygame.Rect(self.x, self.y, self.width, self.height) def shoot(self,window): if self.bul_cooldown >= 1: self.bul_cooldown -= 2 keys = pygame.key.get_pressed() if keys[pygame.K_z] and self.bul_cooldown == 0: new_bullet = Bullet(self.x + self.width/2, self.y + 10) player_bullets_on_screen.append(new_bullet) self.bul_cooldown = 14 if int(len(player_bullets_on_screen)) > 0: for bullet in player_bullets_on_screen: bullet.draw(window,(0,0,0),bullet_image) bullet.move("up") if bullet.bullet_rect[1] <= -20: player_bullets_on_screen.remove(bullet) def teleportation(self): self.vel = 10 if self.tp_cooldown >= 1: self.tp_cooldown -= 2 print('teleportation cooldown : '+ str(self.tp_cooldown)) keys = pygame.key.get_pressed() if keys[pygame.K_d] and keys[pygame.K_UP] and self.tp_cooldown == 0: #forward-dash self.y -= self.height*2 self.tp_cooldown = 100 if keys[pygame.K_d] and keys[pygame.K_LEFT] and self.tp_cooldown == 0: #left-dash self.x -= self.height*2 self.tp_cooldown = 100 if keys[pygame.K_d] and keys[pygame.K_RIGHT] and self.tp_cooldown == 0: #right-dash self.x += self.height*2 self.tp_cooldown = 100 if keys[pygame.K_d] and keys[pygame.K_DOWN] and self.tp_cooldown == 0: #backward-dash self.y += self.height*2 self.tp_cooldown = 100 def out_of_area(self): if self.x + self.width > windowX or self.x < 0 or self.y+self.height > windowY or self.y < 0: return True else: return False def collision(self,window): for bullet in enemy_bul_on_screen: if self.player_rect.colliderect(bullet.bullet_rect): self.x += randint(-100,100) self.y += randint(-100,100) enemy_bul_on_screen.remove(bullet) for i in range(5): particle = Particle(self.player_rect[0] + self.width/2, self.player_rect[1] + self.height) particles_on_screen_p.append(particle) if len(particles_on_screen_p) != 0: for particle in particles_on_screen_p: particle.draw(window) particle.update("down") class Enemy: def __init__(self): self.enemy_x = 100 self.enemy_y = 100 self.en_width = 32 self.en_height = 64 self.vel = 3 self.bul_cooldown = 10 def draw(self,window): pygame.draw.rect(window,(0,0,0),(self.enemy_x, self.enemy_y, self.en_width, self.en_height)) window.blit(enemy_image,(self.enemy_x, self.enemy_y)) self.enemy_rect = pygame.Rect(self.enemy_x, self.enemy_y, self.en_width, self.en_height) #Rect object for collision def move(self,side): if str(side) == "right": self.enemy_x += self.vel elif str(side) == "left": self.enemy_x -= self.vel elif str(side) == "up": self.enemy_y -= self.vel elif str(side) == "down": self.enemy_y += self.vel def enemy_shoot(self,window): if self.bul_cooldown >= 1: self.bul_cooldown -= 2 if self.bul_cooldown <= 0: new_bullet = Bullet(self.enemy_x + self.en_width/2, self.enemy_y + 10) enemy_bul_on_screen.append(new_bullet) self.bul_cooldown = random.randint(6,14) #10 if int(len(enemy_bul_on_screen)) > 0: for bullet in enemy_bul_on_screen: bullet.draw(window,(0,0,0),enemy_bul_img) bullet.move("down") if bullet.bullet_rect[1] >= windowY +20: enemy_bul_on_screen.remove(bullet) #print('Bullets (Enemy,Player): ' + str(len(bullets_on_screen + enemy_bul_on_screen))) def out_of_area(self): if self.enemy_x > windowX+1 or self.enemy_x < -1 or self.enemy_y > windowY+1 or self.enemy_y < -1: return True else: return False def collision(self,window): for bullet in player_bullets_on_screen: if self.enemy_rect.colliderect(bullet.bullet_rect): player_bullets_on_screen.remove(bullet) self.enemy_x += randint(-60,60) self.enemy_y += randint(-60,60) for i in range(5): particle = Particle(self.enemy_rect[0] + self.en_width/2, self.enemy_rect[1] + self.en_height) particles_on_screen_e.append(particle) if len(particles_on_screen_e) != 0: for particle in particles_on_screen_e: particle.draw(window) particle.update("up")