import pygame from random import randint import math import sys SCREEN_X = 1280 SCREEN_Y = 720 # pygame setup pygame.init() pygame.display.set_caption("Rouglite") screen = pygame.display.set_mode((SCREEN_X, SCREEN_Y)) clock = pygame.time.Clock() running = True class Player(pygame.sprite.Sprite): def __init__(self, pos, group): super().__init__(group) self.idle_image = self.image = pygame.image.load("Sprites/Idle/Player_right.png").convert_alpha() self.rect = self.image.get_rect(center = pos) self.direction = pygame.math.Vector2() self.speed = 2.25 self.time = 0 self.time_2 = 0 self.SCORE = 0 #health self.current_health = 1000 #health self.maximum_health = 1000 self.health_bar_lenght = 500 self.health_ratio = self.maximum_health / self.health_bar_lenght self.target_health = 1000 self.health_change_speed = 5 # Shooting self.can_shoot = True self.shoot_cooldown_time = 100 # Milliseconds self.shoot_cooldown = 0 # animations self.image_direction = 1 self.animation_timer = 0 self.current_sprite = 0 self.running_sprites = [] for i in range(6): self.running_sprites.append(pygame.image.load("Sprites/Running/Player_run_right_"+str(i+1)+".png").convert_alpha()) def get_damage(self, amount): if self.target_health > 0: self.target_health -= amount if self.target_health <= 0: self.target_health = 0 def get_health(self, amnount): if self.target_health < self.maximum_health: self.target_health += amnount pygame.mixer.Sound("Sounds/health_plus.mp3") if self.target_health >= self.maximum_health: self.target_health = self.maximum_health def ahealth_bar(self): self.current_health += (self.target_health-self.current_health)/10 transition_colour = (0, 255, 0) health_bar_width = self.current_health/self.health_ratio transition_bar_width = self.target_health/self.health_ratio if self.current_health > self.target_health: health_bar_width = self.target_health/self.health_ratio transition_bar_width = self.current_health/self.health_ratio transition_colour = (255, 255, 0) health_bar_rect = pygame.Rect(10,45,health_bar_width,25) transition_bar_rect = pygame.Rect(10,45,transition_bar_width,25) pygame.draw.rect(screen, transition_colour, transition_bar_rect) pygame.draw.rect(screen,(255,0,0),health_bar_rect) pygame.draw.rect(screen,(255,255,255), (10,45,self.health_bar_lenght,25),4) def input(self): keys = pygame.key.get_pressed() speed_multiplier_x = 0 speed_multiplier_y = 0 if self.direction.x > 0: self.image_direction = 1 elif self.direction.x < 0: self.image_direction = -1 if keys[pygame.K_w]: speed_multiplier_y = -1 elif keys[pygame.K_s]: speed_multiplier_y = 1 # Check if A and D keys are pressed if keys[pygame.K_a]: speed_multiplier_x = -1 elif keys[pygame.K_d]: speed_multiplier_x = 1 # Calculate movement direction based on keys pressed self.direction.x = speed_multiplier_x self.direction.y = speed_multiplier_y self.direction.y = (keys[pygame.K_s]) - (keys[pygame.K_w]) self.direction.x = (keys[pygame.K_d]) - (keys[pygame.K_a]) if self.direction.x != 0 and self.direction.y != 0: self.direction.normalize_ip() self.direction.x *= self.speed self.direction.y *= self.speed if pygame.mouse.get_pressed()[0] and self.can_shoot: direction = -(pygame.math.Vector2(self.rect.topleft) - pygame.mouse.get_pos() - camera_group.offset) direction = pygame.math.Vector2.normalize(direction) new_projectile = Projectile(self.rect.center, direction, camera_group) self.can_shoot = False self.shoot_cooldown = pygame.time.get_ticks() self.shoot = True def update(self): self.input() self.ahealth_bar() self.rect.center += self.direction * self.speed now = pygame.time.get_ticks() if now - self.shoot_cooldown > self.shoot_cooldown_time: self.can_shoot = True if now - self.animation_timer > 50: if pygame.Vector2.length(self.direction) == 0: self.image = self.idle_image self.current_sprite = 0 else: self.animation_timer = pygame.time.get_ticks() self.current_sprite += 1 if self.current_sprite > len(self.running_sprites)-1: self.current_sprite = 0 self.image = self.running_sprites[self.current_sprite] class Arm(pygame.sprite.Sprite): def __init__(self, pos, group): super().__init__(group) self.base_image = pygame.image.load("Sprites/minigun.png").convert_alpha() self.base_image = pygame.transform.scale(self.base_image, (40, 15)) self.image_direction = 1 self.direction = pygame.Vector2(0, 0) self.speed = 10 angle = math.degrees(math.atan2(-self.direction.y, self.direction.x)) self.image = pygame.transform.rotate(self.base_image, angle) self.rect = self.image.get_rect(center = pos) def update(self): self.rect.center = player.rect.center self.direction = -(pygame.math.Vector2(self.rect.topleft) - pygame.mouse.get_pos() - camera_group.offset) self.direction = pygame.math.Vector2.normalize(self.direction) angle = math.degrees(math.atan2(-self.direction.y, self.direction.x)) if(abs(angle)<90): self.image_direction = 1 else: self.image_direction = -1 self.rect.center -= pygame.Vector2(math.sin(math.radians(angle-90))*20, math.cos(math.radians(angle-90))*20) if(abs(angle)>90): angle = math.degrees(math.atan2(self.direction.y, self.direction.x))+180 self.image = pygame.transform.rotate(self.base_image, angle) class Projectile(pygame.sprite.Sprite): def __init__(self, pos, direction, group): super().__init__(group) self.image = pygame.image.load("Sprites/bullet.png").convert_alpha() self.image_direction = 1 self.direction = direction self.speed = 15 angle = math.degrees(math.atan2(-self.direction.y, self.direction.x)) self.image = pygame.transform.rotate(self.image, angle) self.rect = self.image.get_rect(center = pos) self.rect.center += self.direction * 50 self.life_timer = 10000 # Milliseconds self.spawned_time = pygame.time.get_ticks() def collision(self): for enemy in enemies: distance = pygame.math.Vector2.length(pygame.math.Vector2(enemy.rect.center) - self.rect.center) if distance < 20: enemy.damage(1) self.kill() break for enemy in enemies2: distance = pygame.math.Vector2.length(pygame.math.Vector2(enemy.rect.center) - self.rect.center) if distance < 20: enemy.damage(1) self.kill() break def update(self): self.rect.center += self.direction * self.speed self.collision() now = pygame.time.get_ticks() if now - self.spawned_time > self.life_timer: self.kill() class Enemy(pygame.sprite.Sprite): def __init__(self, pos, group, scale): super().__init__(group) self.original_image = pygame.image.load("Sprites/bomb.png").convert_alpha() self.image = pygame.transform.scale(self.original_image, (int(self.original_image.get_width() * scale), int(self.original_image.get_height() * scale))) self.phase_2 = pygame.image.load("Sprites/bomb_phase2.png").convert_alpha() self.phase_2 = pygame.transform.scale(self.phase_2, (int(self.phase_2.get_width() * scale), int(self.phase_2.get_height() * scale))) self.rect = self.image.get_rect(center=pos) self.pos = self.rect.center self.direction = pygame.math.Vector2() self.speed = 2 self.health = 3 self.death = pygame.mixer.Sound("Sounds/explosion.wav") self.image_direction = 1 def damage(self, damage): self.health -= 1 if self.health == 1: self.image = self.phase_2 if self.health <= 0: enemies.remove(self) self.kill() self.death.play() player.SCORE += 1 def update(self): self.direction = pygame.math.Vector2(player.rect.center) - self.rect.center if pygame.math.Vector2.length(self.direction) < 20: if self.image == self.phase_2: player.get_damage(100) self.kill() enemies.remove(self) player.time = 0 self.death.play() else: player.get_damage(200) self.kill() enemies.remove(self) player.time = 0 self.death.play() self.pos += self.direction.normalize() * self.speed self.rect.center = (round(self.pos.x), round(self.pos.y)) class Enemy_2(pygame.sprite.Sprite): def __init__(self, pos, group, scale): super().__init__(group) self.original_image = pygame.image.load("Sprites/atom_bomb.png").convert_alpha() self.image = pygame.transform.scale(self.original_image, (int(self.original_image.get_width() * scale), int(self.original_image.get_height() * scale))) self.rect = self.image.get_rect(center = pos) self.pos = self.rect.center self.direction = pygame.math.Vector2() self.speed = 1 self.health = 10 self.image_direction = 1 self.death = pygame.mixer.Sound("Sounds/explosion_atomic.wav") def damage(self, damage): self.health -= 1 if self.health <= 0: enemies2.remove(self) self.kill() self.death.play() player.SCORE += 3 def update(self): self.direction = pygame.math.Vector2(player.rect.center) - self.rect.center if pygame.math.Vector2.length(self.direction) < 20: player.get_damage(500) self.kill() enemies2.remove(self) player.time = 0 self.death.play() self.pos += self.direction.normalize() * self.speed self.rect.center = (round(self.pos.x), round(self.pos.y)) class CameraGroup(pygame.sprite.Group): def __init__(self): super().__init__() self.display_surface = pygame.display.get_surface() self.offset = pygame.math.Vector2(300, 100) self.half_w = self.display_surface.get_size()[0] // 2 self.half_h = self.display_surface.get_size()[1] // 2 def center_target_camera(self, target): self.offset.x = target.rect.centerx - self.half_w self.offset.y = target.rect.centery - self.half_h def custom_draw(self, player): self.center_target_camera(player) for sprite in sorted(self.sprites(), key=lambda sprite: sprite.rect.centery): offset_pos = sprite.rect.topleft - self.offset if sprite.image_direction == -1: self.display_surface.blit(pygame.transform.flip(sprite.image, True, False), offset_pos) else: self.display_surface.blit(sprite.image, offset_pos) def spawn_enemy(): if len(enemies) < 5 + (player.time_2): random_x = randint(-1000, 1000) random_y = randint(-1000, 1000) enemies.append(Enemy((player.rect.centerx + random_x, player.rect.centery + random_y), camera_group, 0.05)) def spawn_enemy2(): if len(enemies2) < 2 + int(player.time_2): random_x = randint(-1000, 1000) random_y = randint(-1000, 1000) enemies2.append(Enemy_2((player.rect.centerx + random_x, player.rect.centery + random_y), camera_group, 0.5)) spawn_enemy_event = pygame.USEREVENT + 1 smallfont = pygame.font.Font("assets/font.ttf", 25) def score(score): text = smallfont.render("Score: " + str(score), True, "black") screen.blit(text, [10,15]) #Setup camera_group = CameraGroup() enemies = [] enemies2 = [] player = Player((500, 500), camera_group) Arm((0, 0), camera_group) pygame.time.set_timer(spawn_enemy_event, 100) crosshair_img = pygame.transform.scale(pygame.image.load('Sprites/crosshair.png'), (30, 30)) cursor = pygame.cursors.Cursor((0, 0), crosshair_img) pygame.mouse.set_cursor(cursor) pygame.mouse.set_visible(True | False) # Add a variable to track player's life status player_alive = True # Main game loop while running: for e in pygame.event.get(): if e.type == pygame.QUIT: running = False pygame.quit() if e.type == spawn_enemy_event: spawn_enemy() if e.type == spawn_enemy_event: spawn_enemy2() if player.time > 3: if player.current_health < 999 and player.target_health > 0: player.get_health(100) player.time -= 1 else: pass # Check if the player's health reaches zero if player.target_health <= 0: player_alive = False if not player_alive: # Display death screen screen.fill((0, 0, 0)) # Fill screen with black color death_font = pygame.font.Font(None, 50) death_text = smallfont.render("You Died! Your score was " + str(player.SCORE), True, (255, 255, 255)) screen.blit(death_text, (SCREEN_X // 2 - death_text.get_width() // 2, SCREEN_Y // 2 - death_text.get_height() // 2)) restart_text = smallfont.render("Press SPACE to restart", True, (255, 255, 255)) screen.blit(restart_text, (SCREEN_X // 2 - restart_text.get_width() // 2, SCREEN_Y // 2 + 50)) quit_text = smallfont.render("Press Q to quit", True, (255, 255, 255)) screen.blit(quit_text, (SCREEN_X // 2 - quit_text.get_width() // 2, SCREEN_Y // 2 + 100)) pygame.display.flip() # Check for restart or quit input keys = pygame.key.get_pressed() if keys[pygame.K_SPACE]: # Reset player's health, score, and other relevant variables player_alive = True player.current_health = player.maximum_health player.target_health = player.maximum_health player.SCORE = 0 if keys[pygame.K_q]: pygame.quit() sys.exit() else: # If player is alive, continue the game screen.fill("cyan") score(player.SCORE) camera_group.update() camera_group.custom_draw(player) pygame.display.flip() clock.tick(60) player.time += 0.016 player.time_2 += 0.005