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Author SHA1 Message Date
Your Name ae9657dff2 ADD file via upload
6 months ago
pnjiwsfv3 ce16b58108 ADD file via upload
6 months ago

8
.idea/.gitignore vendored

@ -0,0 +1,8 @@
# 默认忽略的文件
/shelf/
/workspace.xml
# 基于编辑器的 HTTP 客户端请求
/httpRequests/
# Datasource local storage ignored files
/dataSources/
/dataSources.local.xml

@ -0,0 +1,9 @@
<?xml version="1.0" encoding="UTF-8"?>
<module type="JAVA_MODULE" version="4">
<component name="NewModuleRootManager" inherit-compiler-output="true">
<exclude-output />
<content url="file://$MODULE_DIR$" />
<orderEntry type="inheritedJdk" />
<orderEntry type="sourceFolder" forTests="false" />
</component>
</module>

@ -0,0 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectRootManager" version="2" languageLevel="JDK_20" project-jdk-name="Python 3.11" project-jdk-type="Python SDK">
<output url="file://$PROJECT_DIR$/out" />
</component>
</project>

@ -0,0 +1,8 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/google.iml" filepath="$PROJECT_DIR$/.idea/google.iml" />
</modules>
</component>
</project>

@ -0,0 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="" vcs="Git" />
</component>
</project>

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@ -1,5 +1,6 @@
from dinosaur import * from dinosaur import *
class Bullet: class Bullet:
def __init__(self, game_speed, dinosaur): def __init__(self, game_speed, dinosaur):
self.game_speed = game_speed self.game_speed = game_speed
@ -10,5 +11,6 @@ class Bullet:
def update(self): def update(self):
self.rect.x += self.game_speed self.rect.x += self.game_speed
def draw(self,SCREEN):
SCREEN.blit(self.image, (self.rect.x, self.rect.y)) def draw(self, SCREEN):
SCREEN.blit(self.image, (self.rect.x, self.rect.y))

@ -1,20 +1,22 @@
from settings import *
import random import random
from settings import *
class Cloud: class Cloud:
def __init__(self, game_speed): def __init__(self, game_speed):
# 随机设定云的xy坐标 # 随机设定云的xy坐标
self.x = SCREEN_WIDTH + random.randint(200, 500) # 云先出现在游戏画面外,然后飞入 self.x = SCREEN_WIDTH + random.randint(200, 500) # 云先出现在游戏画面外,然后飞入
self.y = random.randint(50, 200) # 云的y坐标即离上部分区域的距离 self.y = random.randint(50, 200) # 云的y坐标即离上部分区域的距离
self.image = CLOUD # image 保存云的图片 self.image = CLOUD # image 保存云的图片
self.width = self.image.get_width() self.width = self.image.get_width()
self.game_speed = game_speed self.game_speed = game_speed
def update(self): def update(self):
self.x -= self.game_speed self.x -= self.game_speed
if self.x < -self.width: # 当云从左边出界后又从右边出来 if self.x < -self.width: # 当云从左边出界后又从右边出来
self.x = SCREEN_WIDTH + random.randint(200, 500) self.x = SCREEN_WIDTH + random.randint(200, 500)
self.y = random.randint(50, 200) self.y = random.randint(50, 200)
def draw(self, SCREEN): def draw(self, SCREEN):
SCREEN.blit(self.image, (self.x, self.y)) SCREEN.blit(self.image, (self.x, self.y))

@ -1,11 +1,11 @@
from settings import * from settings import *
from bullet import Bullet
class Dinosaur: class Dinosaur:
X_ori = 80 # 恐龙的初始x坐标 X_ori = 80 # 恐龙的初始x坐标
Y_ori = 310 # 恐龙的初始y坐标 Y_ori = 310 # 恐龙的初始y坐标
Y_ori_DUCK = 340 # 恐龙的初始低头y坐标 Y_ori_DUCK = 340 # 恐龙的初始低头y坐标
ori_vy = 7 # 恐龙的初始跳跃速度 ori_vy = 7 # 恐龙的初始跳跃速度
def __init__(self, game_speed): def __init__(self, game_speed):
# 读入setting中恐龙三种状态所属的列表图片 # 读入setting中恐龙三种状态所属的列表图片
@ -16,18 +16,17 @@ class Dinosaur:
self.gravity = 9.8 self.gravity = 9.8
self.hp = 2 self.hp = 2
# 恐龙的三种状态:低头,奔跑,跳跃 # 恐龙的三种状态:低头,奔跑,跳跃
self.status = 1 # 状态机0表示低头 1表示奔跑 2表示跳跃状态, 3表示往左移动 4表示往右移动 self.status = 1 # 状态机0表示低头 1表示奔跑 2表示跳跃状态, 3表示往左移动 4表示往右移动
self.index = 0 self.index = 0
self.vy = self.ori_vy # 设定初始速度为ori_vy self.vy = self.ori_vy # 设定初始速度为ori_vy
self.image = self.run_img[0] # 初始的跑步动作下标为0 self.image = self.run_img[0] # 初始的跑步动作下标为0
self.dino_rect = self.image.get_rect() # get_rect是获取图像的位置信息以及宽度高度 self.dino_rect = self.image.get_rect() # get_rect是获取图像的位置信息以及宽度高度
self.dino_rect.x = self.X_ori self.dino_rect.x = self.X_ori
self.dino_rect.y = self.Y_ori self.dino_rect.y = self.Y_ori
def update(self, userInput): # userInput <== 键盘输入 def update(self, userInput): # userInput <== 键盘输入
# 三种状态不断切换 # 三种状态不断切换
if self.status == 0: if self.status == 0:
self.duck() self.duck()
@ -64,9 +63,9 @@ class Dinosaur:
self.image = self.jump_img self.image = self.jump_img
if self.status == 2: if self.status == 2:
# 抛物线公式 # 抛物线公式
self.dino_rect.y -= self.vy * 4 # 在空中下降,注意y轴是向下的所以需要是-= self.dino_rect.y -= self.vy * 4 # 在空中下降,注意y轴是向下的所以需要是-=
self.vy -= 0.5 # 加速度为-0.5 self.vy -= 0.5 # 加速度为-0.5
if self.vy < - self.ori_vy: # 恢复初始跳跃速度 if self.vy < - self.ori_vy: # 恢复初始跳跃速度
self.status = 1 self.status = 1
self.vy = self.ori_vy self.vy = self.ori_vy
@ -75,7 +74,7 @@ class Dinosaur:
SCREEN.blit(self.image, (self.dino_rect.x, self.dino_rect.y)) SCREEN.blit(self.image, (self.dino_rect.x, self.dino_rect.y))
# 死亡动画 # 死亡动画
def draw_death(self,SCREEN): def draw_death(self, SCREEN):
SCREEN.blit(DEAD, (self.dino_rect.x, self.dino_rect.y)) SCREEN.blit(DEAD, (self.dino_rect.x, self.dino_rect.y))
def showHp(self): def showHp(self):
@ -91,4 +90,4 @@ class Dinosaur:
def showDead(self): def showDead(self):
font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 30) font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 30)
text = font.render("TAT", True, (0, 0, 0)) text = font.render("TAT", True, (0, 0, 0))
SCREEN.blit(text, (self.dino_rect.x, self.dino_rect.y - 50)) SCREEN.blit(text, (self.dino_rect.x, self.dino_rect.y - 50))

@ -3,26 +3,27 @@ import sys
import pygame.time import pygame.time
from settings import *
from dinosaur import Dinosaur
from cloud import Cloud
from bullet import Bullet from bullet import Bullet
from cloud import Cloud
from dinosaur import Dinosaur
from settings import *
pygame.init() # 初始化pygame
pygame.display.set_caption('谷歌小游戏(小恐龙快跑)') # 设置标题
pygame.init() # 初始化pygame
pygame.display.set_caption('谷歌小游戏(小恐龙快跑)') # 设置标题
class Barrier: # 定义一个障碍物基类, 后面的各个障碍物都是Barrier的子类 class Barrier: # 定义一个障碍物基类, 后面的各个障碍物都是Barrier的子类
def __init__(self, image, type): def __init__(self, image, type):
self.image = image self.image = image
self.type = type self.type = type
self.rect = self.image[self.type].get_rect() self.rect = self.image[self.type].get_rect()
self.rect.x = SCREEN_WIDTH # 先把障碍物放到地图的右下角,然后出来 self.rect.x = SCREEN_WIDTH # 先把障碍物放到地图的右下角,然后出来
self.game_speed = game_speed self.game_speed = game_speed
self.hp = 100 # 血量 self.hp = 100 # 血量
def update(self): def update(self):
self.rect.x -= self.game_speed # x坐标向左移动即障碍物向左移动 self.rect.x -= self.game_speed # x坐标向左移动即障碍物向左移动
if self.rect.x < -self.rect.width or self.hp <= 0: # 还需要判断障碍物是否移出了边界,如果越界的话我们要把该障碍物释放掉 if self.rect.x < -self.rect.width or self.hp <= 0: # 还需要判断障碍物是否移出了边界,如果越界的话我们要把该障碍物释放掉
barriers.pop() barriers.pop()
def draw(self, SCREEN): def draw(self, SCREEN):
@ -30,7 +31,7 @@ class Barrier: # 定义一个障碍物基类, 后面的各个障碍物都是Ba
# 头顶显示血量 # 头顶显示血量
def showHp(self): def showHp(self):
font = pygame.font.SysFont(['方正粗黑宋简体','microsoftsansserif'], 30) font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 30)
text = font.render("Hp: " + str(self.hp), True, (0, 0, 0)) text = font.render("Hp: " + str(self.hp), True, (0, 0, 0))
SCREEN.blit(text, (self.rect.x, self.rect.y - 20)) SCREEN.blit(text, (self.rect.x, self.rect.y - 20))
@ -38,19 +39,23 @@ class Barrier: # 定义一个障碍物基类, 后面的各个障碍物都是Ba
font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 30) font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 30)
text = font.render("┗|`O'|┛", True, (0, 0, 0)) text = font.render("┗|`O'|┛", True, (0, 0, 0))
SCREEN.blit(text, (self.rect.x, self.rect.y - 70)) SCREEN.blit(text, (self.rect.x, self.rect.y - 70))
# barriers的子类 # barriers的子类
class SmallCactus(Barrier): class SmallCactus(Barrier):
def __init__(self, image): def __init__(self, image):
self.type = random.randint(0, 2) #随机生成0-2下标即随机生成3种小仙人掌中的一个 self.type = random.randint(0, 2) # 随机生成0-2下标即随机生成3种小仙人掌中的一个
super().__init__(image, self.type) # super调用父类对象的方法 super().__init__(image, self.type) # super调用父类对象的方法
self.rect.y = 325 self.rect.y = 325
class LargeCactus(Barrier): class LargeCactus(Barrier):
def __init__(self, image): def __init__(self, image):
self.type = random.randint(0, 2) self.type = random.randint(0, 2)
super().__init__(image, self.type) super().__init__(image, self.type)
self.rect.y = 300 self.rect.y = 300
class Bird(Barrier): class Bird(Barrier):
def __init__(self, image): def __init__(self, image):
self.type = 0 self.type = 0
@ -65,9 +70,10 @@ class Bird(Barrier):
self.index = 0 self.index = 0
SCREEN.blit(self.image[self.index // 5], self.rect) SCREEN.blit(self.image[self.index // 5], self.rect)
self.index += 1 self.index += 1
def update(self): # 多态实现鸟的上下移动
def update(self): # 多态实现鸟的上下移动
self.rect.x -= self.game_speed self.rect.x -= self.game_speed
if self.rect.x < -self.rect.width or self.hp <= 0: # 还需要判断障碍物是否移出了边界,如果越界的话我们要把该障碍物释放掉 if self.rect.x < -self.rect.width or self.hp <= 0: # 还需要判断障碍物是否移出了边界,如果越界的话我们要把该障碍物释放掉
barriers.pop() barriers.pop()
self.rect.y -= self.vy * 3 self.rect.y -= self.vy * 3
self.vy -= 0.5 self.vy -= 0.5
@ -76,43 +82,44 @@ class Bird(Barrier):
self.vy = -self.vy self.vy = -self.vy
elif self.rect.y >= SCREEN_HEIGHT - 250: elif self.rect.y >= SCREEN_HEIGHT - 250:
self.vy = 10 self.vy = 10
def menu(death_cnt): def menu(death_cnt):
global points, max_score# 引入points, max_score全局变量 global points, max_score # 引入points, max_score全局变量
run = True run = True
while run: while run:
SCREEN.fill((255, 255, 255)) # 背景色设置为白色 SCREEN.fill((255, 255, 255)) # 背景色设置为白色
font = pygame.font.SysFont('microsoftyahei', 50)# 微软雅黑 font = pygame.font.SysFont('microsoftyahei', 50) # 微软雅黑
if death_cnt == 0: if death_cnt == 0:
text = font.render("按任意键开始", True, (0, 0, 0)) text = font.render("按任意键开始", True, (0, 0, 0))
elif death_cnt > 0: elif death_cnt > 0:
text = font.render("按任意键重新启动", True, (0, 0, 0)) text = font.render("按任意键重新启动", True, (0, 0, 0))
score = font.render("你的分数: " + str(points), True, (0, 0, 0)) # 分数 score = font.render("你的分数: " + str(points), True, (0, 0, 0)) # 分数
if death_cnt == 1: if death_cnt == 1:
max_score = points max_score = points
else: else:
max_score = max(max_score, points) max_score = max(max_score, points)
maxScore = font.render("最高分: " + str(max_score), True, (0, 0, 0)) # 最高分 maxScore = font.render("最高分: " + str(max_score), True, (0, 0, 0)) # 最高分
scoreRect = score.get_rect() scoreRect = score.get_rect()
scoreRect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2 + 50) # 将分数显示在游戏屏幕中间 scoreRect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2 + 50) # 将分数显示在游戏屏幕中间
SCREEN.blit(GAMEOVER, (SCREEN_WIDTH // 2 - 200, SCREEN_HEIGHT // 2 - 200)) # 显示GAMEOVER图片 SCREEN.blit(GAMEOVER, (SCREEN_WIDTH // 2 - 200, SCREEN_HEIGHT // 2 - 200)) # 显示GAMEOVER图片
SCREEN.blit(score, scoreRect) # 显示分数 SCREEN.blit(score, scoreRect) # 显示分数
SCREEN.blit(maxScore, (SCREEN_WIDTH // 2 - 170, SCREEN_HEIGHT // 2 + 70)) # 显示最高分数 SCREEN.blit(maxScore, (SCREEN_WIDTH // 2 - 170, SCREEN_HEIGHT // 2 + 70)) # 显示最高分数
textRect = text.get_rect() textRect = text.get_rect()
textRect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2) textRect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2)
SCREEN.blit(text, textRect) SCREEN.blit(text, textRect)
SCREEN.blit(RUNNING[0], (SCREEN_WIDTH // 2 - 50, SCREEN_HEIGHT // 2 - 140)) #把恐龙的图片显示在菜单界面 SCREEN.blit(RUNNING[0], (SCREEN_WIDTH // 2 - 50, SCREEN_HEIGHT // 2 - 140)) # 把恐龙的图片显示在菜单界面
# 添加作者信息 # 添加作者信息
author_font = pygame.font.SysFont('microsoftyahei', 30)# 创建一个字体对象,使用 'microsoftyahei' 字体,字号大小为 30 author_font = pygame.font.SysFont('microsoftyahei', 30) # 创建一个字体对象,使用 'microsoftyahei' 字体,字号大小为 30
author_text = author_font.render("作者: 袁恒", True, (0, 0, 0)) # render 方法的参数依次是文本内容是否开启抗锯齿True 开启),文本颜色(黑色) author_text = author_font.render("作者: 袁恒", True,
(0, 0, 0)) # render 方法的参数依次是文本内容是否开启抗锯齿True 开启),文本颜色(黑色)
author_text_rect = author_text.get_rect() author_text_rect = author_text.get_rect()
author_text_rect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2 + 150) # 设置文本矩形的中心位置 author_text_rect.center = (SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2 + 150) # 设置文本矩形的中心位置
SCREEN.blit(author_text, author_text_rect) # 使用 blit 方法将渲染后的文本表面绘制到屏幕上 SCREEN.blit(author_text, author_text_rect) # 使用 blit 方法将渲染后的文本表面绘制到屏幕上
pygame.display.update() # 更新画面 pygame.display.update() # 更新画面
# 判断各个事件, 开始游戏 # 判断各个事件, 开始游戏
for event in pygame.event.get(): for event in pygame.event.get():
if event.type == pygame.QUIT: if event.type == pygame.QUIT:
@ -129,7 +136,7 @@ def main():
clock = pygame.time.Clock() clock = pygame.time.Clock()
game_speed = 5 # 游戏的速度 game_speed = 5 # 游戏的速度
player = Dinosaur(game_speed) # 实例化对象 player = Dinosaur(game_speed) # 实例化对象
cloud = Cloud(game_speed) cloud = Cloud(game_speed)
@ -137,7 +144,7 @@ def main():
x_ori_bg = 0 x_ori_bg = 0
y_ori_bg = 380 y_ori_bg = 380
points = 0 points = 0
font = pygame.font.SysFont(['方正粗黑宋简体','microsoftsansserif'], 20) # 分数的字体 font = pygame.font.SysFont(['方正粗黑宋简体', 'microsoftsansserif'], 20) # 分数的字体
# 设置障碍物列表 # 设置障碍物列表
barriers = [] barriers = []
@ -147,10 +154,10 @@ def main():
def score(): def score():
global points, game_speed global points, game_speed
points += 1 points += 1
if points % 150 == 0: # 分数每过150速度加1时间越长速度越快 if points % 150 == 0: # 分数每过150速度加1时间越长速度越快
game_speed += 1 game_speed += 1
text = font.render("score: " + str(points), True, (0, 0, 0)) # render内容是否抗锯齿字体颜色字体背景颜色 text = font.render("score: " + str(points), True, (0, 0, 0)) # render内容是否抗锯齿字体颜色字体背景颜色
textRect = text.get_rect() textRect = text.get_rect()
textRect.center = (550, 40) textRect.center = (550, 40)
SCREEN.blit(text, textRect) SCREEN.blit(text, textRect)
@ -159,27 +166,26 @@ def main():
global x_ori_bg, y_ori_bg global x_ori_bg, y_ori_bg
image_width = BG.get_width() image_width = BG.get_width()
SCREEN.blit(BG, (x_ori_bg, y_ori_bg)) SCREEN.blit(BG, (x_ori_bg, y_ori_bg))
SCREEN.blit(BG, (image_width + x_ori_bg, y_ori_bg)) # 保证图片连续 SCREEN.blit(BG, (image_width + x_ori_bg, y_ori_bg)) # 保证图片连续
if x_ori_bg <= -image_width: # 越界 if x_ori_bg <= -image_width: # 越界
SCREEN.blit(BG, (image_width + x_ori_bg, y_ori_bg)) SCREEN.blit(BG, (image_width + x_ori_bg, y_ori_bg))
x_ori_bg = 0 x_ori_bg = 0
x_ori_bg -= game_speed # 背景图片每帧往左移game_speed个单位 x_ori_bg -= game_speed # 背景图片每帧往左移game_speed个单位
flag_hit = 0 # 标记恐龙是否被击中过 flag_hit = 0 # 标记恐龙是否被击中过
death_cnt = 0 # 记录死亡次数death_cnt = 0显示开始界面大于0的就会显示重开界面 death_cnt = 0 # 记录死亡次数death_cnt = 0显示开始界面大于0的就会显示重开界面
last_timestamp = 0 # 记录时钟记录的上一个时刻 last_timestamp = 0 # 记录时钟记录的上一个时刻
last_timestamp_hit = 0 # 记录恐龙受到伤害时钟记录的上一个时刻 last_timestamp_hit = 0 # 记录恐龙受到伤害时钟记录的上一个时刻
last_timestamp_barr_hit = 0 # 记录障碍物受到伤害时钟记录的上一个时刻 last_timestamp_barr_hit = 0 # 记录障碍物受到伤害时钟记录的上一个时刻
flag_barr_hit = 0 # 记录障碍物有没有受得伤害 flag_barr_hit = 0 # 记录障碍物有没有受得伤害
while run: while run:
for event in pygame.event.get(): for event in pygame.event.get():
if event.type == pygame.QUIT: if event.type == pygame.QUIT:
run = False run = False
SCREEN.fill((255, 255, 255)) # 背景填充为白色 SCREEN.fill((255, 255, 255)) # 背景填充为白色
userInput = pygame.key.get_pressed() # 从键盘读入按键 userInput = pygame.key.get_pressed() # 从键盘读入按键
# 3s内显示血量的简单逻辑 # 3s内显示血量的简单逻辑
@ -189,9 +195,6 @@ def main():
if pygame.time.get_ticks() - last_timestamp_hit > 3000: if pygame.time.get_ticks() - last_timestamp_hit > 3000:
flag_hit = 0 flag_hit = 0
background() # 画出背景 background() # 画出背景
cloud.draw(SCREEN) # 画出云的图像 cloud.draw(SCREEN) # 画出云的图像
@ -211,16 +214,16 @@ def main():
# 随机等可能生成障碍物 # 随机等可能生成障碍物
if random.randint(0, 2) == 0: if random.randint(0, 2) == 0:
barriers.append(SmallCactus(SMALL_CACTUS)) # 向列表添加障碍物元素 barriers.append(SmallCactus(SMALL_CACTUS)) # 向列表添加障碍物元素
elif random.randint(0, 2) == 1: elif random.randint(0, 2) == 1:
barriers.append(LargeCactus(LARGE_CACTUS)) barriers.append(LargeCactus(LARGE_CACTUS))
elif random.randint(0, 2) == 2: elif random.randint(0, 2) == 2:
barriers.append(Bird(BIRD)) barriers.append(Bird(BIRD))
for barrier in barriers: for barrier in barriers:
barrier.draw(SCREEN) # 调用barrier类的draw函数渲染画面 barrier.draw(SCREEN) # 调用barrier类的draw函数渲染画面
barrier.update() barrier.update()
barrier.showHp() # 显示血量 barrier.showHp() # 显示血量
if flag_barr_hit == 1: if flag_barr_hit == 1:
if barrier.hp < 100 and pygame.time.get_ticks() - last_timestamp_barr_hit <= 3000: if barrier.hp < 100 and pygame.time.get_ticks() - last_timestamp_barr_hit <= 3000:
@ -228,7 +231,7 @@ def main():
if pygame.time.get_ticks() - last_timestamp_barr_hit > 3000: if pygame.time.get_ticks() - last_timestamp_barr_hit > 3000:
flag_barr_hit = 0 flag_barr_hit = 0
if player.dino_rect.colliderect(barrier.rect): # pygame的一个方法colliderect检测两个物体是否碰撞 if player.dino_rect.colliderect(barrier.rect): # pygame的一个方法colliderect检测两个物体是否碰撞
last_timestamp_hit = pygame.time.get_ticks() last_timestamp_hit = pygame.time.get_ticks()
player.hp -= 1 # 被击中生命值减1 player.hp -= 1 # 被击中生命值减1
flag_hit = 1 flag_hit = 1
@ -239,13 +242,13 @@ def main():
player.update(userInput) # 调用dinosaur的update函数每次渲染都判断一次是否按下相应的键位 player.update(userInput) # 调用dinosaur的update函数每次渲染都判断一次是否按下相应的键位
player.showHp() player.showHp()
if player.hp == 0: # 血量为0时 if player.hp == 0: # 血量为0时
player.showDead() player.showDead()
player.draw_death(SCREEN) player.draw_death(SCREEN)
pygame.display.update() # 显示死亡动画 pygame.display.update() # 显示死亡动画
pygame.time.delay(1000) pygame.time.delay(1000)
death_cnt += 1 death_cnt += 1
menu(death_cnt) # 调出死亡界面 menu(death_cnt) # 调出死亡界面
# 子弹击中障碍物部分 # 子弹击中障碍物部分
for bullet in bullets: for bullet in bullets:
@ -263,14 +266,15 @@ def main():
points += 50 points += 50
barriers.remove(barrier) barriers.remove(barrier)
# 发射子弹, 并且保证每个子弹的发射间隔小于200毫秒 # 发射子弹, 并且保证每个子弹的发射间隔小于200毫秒
if (userInput[pygame.K_SPACE] and pygame.time.get_ticks() - last_timestamp >= 200) or (userInput[pygame.K_SPACE] and last_timestamp == 0): if (userInput[pygame.K_SPACE] and pygame.time.get_ticks() - last_timestamp >= 200) or (
last_timestamp = pygame.time.get_ticks() # 更新当前时间 userInput[pygame.K_SPACE] and last_timestamp == 0):
last_timestamp = pygame.time.get_ticks() # 更新当前时间
bullets.append(Bullet(game_speed, player)) bullets.append(Bullet(game_speed, player))
pygame.display.update() pygame.display.update()
if __name__ == '__main__': if __name__ == '__main__':
menu(death_cnt = 0) menu(death_cnt=0)
main() main()

@ -1,6 +1,7 @@
import pygame
import os import os
import pygame
# 设置游戏界面大小,保存每一个类的图像数据 # 设置游戏界面大小,保存每一个类的图像数据
SCREEN_HEIGHT = 600 SCREEN_HEIGHT = 600
SCREEN_WIDTH = 1100 SCREEN_WIDTH = 1100
@ -32,4 +33,4 @@ RESET = pygame.image.load(os.path.join("Images/Other", "Reset.png"))
BG = pygame.image.load(os.path.join("Images/Other", "BackGround.png")) BG = pygame.image.load(os.path.join("Images/Other", "BackGround.png"))
BULLET = pygame.image.load(os.path.join("Images/Other", "ProjectileSnowPea.png")) BULLET = pygame.image.load(os.path.join("Images/Other", "ProjectileSnowPea.png"))

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