1.一口气用Python写了13个小游戏(附源码)
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一口气用Python写了13个小游戏(附源码)
以下是根据要求改写后的文章,注重内容的蛇源直观性和可读性:
### 1. 启动游戏与游戏初始化
开始游戏旅程,首先执行以下关键代码:```html
def initGame():
pygame.init()
screen = pygame.display.set_mode(cfg.SCREENSIZE)
... (游戏素材加载)
return screen,码贪 game_images, game_sounds
def main():
screen, game_images, game_sounds = initGame()
pygame.mixer.music.load(cfg.AUDIO_PATHS['bgm'])
... (游戏逻辑核心部分)
while True:
... (渲染背景和倒计时)
... (按键检测)
for event in pygame.event.get():
if event.type == pygame.QUIT:
... (处理退出)
```
### 2. 食物生成与更新
游戏中,动态生成食物是吃蛇一个关键环节:```html
generate_food_count += 1if generate_food_count > generate_food_freq else 0
food = Food(game_images, 'gold' or 'apple', cfg.SCREENSIZE)
food_sprites_group.add(food)
for food in food_sprites_group:
if food.update():food_sprites_group.remove(food)
```
### 3. 碰撞检测与得分
碰撞检测让游戏更具挑战性,当英雄碰到食物:```html
for food in food_sprites_group:
if pygame.sprite.collide_mask(food,源码 hero):
game_sounds['get'].play()
food_sprites_group.remove(food)
score += food.score
if score > highest_score:highest_score = score
```
### 4. 结束游戏与记录最高分
游戏结束后,保存最高分并显示结束界面:```html
fp = open(cfg.HIGHEST_SCORE_RECORD_FILEPATH,贪吃通达信机构主力追踪源码 'w')
fp.write(str(highest_score))
fp.close()
return showEndGameInterface(screen, cfg, score, highest_score)
```
### 5. 主程序入口
最后,主程序开始游戏循环:```html
if __name__ == '__main__':
while main(): pass
```
### 6. 其他小游戏代码概述
其他游戏如俄罗斯方块、蛇源贪吃蛇和点等,码贪简化代码展示核心逻辑:- 俄罗斯方块:计算、吃蛇显示信息和主函数。源码
- 贪吃蛇:游戏主循环,贪吃包括鼠标点击、蛇源游戏更新和判断胜利条件。码贪云his源码
- 点:核心函数如计算、吃蛇显示得分和判断游戏结束。源码
这些代码片段展示了游戏的关键部分,便于初学者理解和学习。完整代码请参阅原文。
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pythonæ趣çç¼ç¨ä»£ç
class?Point:
row=0col=0def?__init__(self,?row,?col):self.row=row
self.col=col
def?copy(self):return?Point(row=self.row,?col=self.col)
#åå§æ¡æ¶
import?pygame
import?random
#åå§å
pygame.init()
W=
H=
ROW=
COL=
size=(W,H)
window=pygame.display.set_mode(size)
pygame.display.set_caption('è´ªåè')
bg_color=(,,)
snake_color=(,,)
head=Point(row=int(ROW/2),?col=int(COL/2))
head_color=(0,,)
snakes=[
Point(row=head.row,?col=head.col+1),Point(row=head.row,?col=head.col+2),Point(row=head.row,?col=head.col+3)]
#çæé£ç©
def?gen_food():
while?1:pos=Point(row=random.randint(0,ROW-1),?col=random.randint(0,COL-1))
#
is_coll=False
#æ¯å¦è·è碰ä¸äº
if?head.row==pos.row?and?head.col==pos.col:
is_coll=True#è身å
for?snake?in?snakes:
if?snake.row==pos.row?and?snake.col==pos.col:is_coll=True
break
if?not?is_coll:
breakreturn?pos#å®ä¹åæ
food=gen_food()
food_color=(,,0)
direct='left'#left,right,up,down
#
def?rect(point,?color):
cell_width=W/COLcell_height=H/ROWleft=point.col*cell_widthtop=point.row*cell_heightpygame.draw.rect(window,?color,
(left,?top,?cell_width,?cell_height)
)pass#游æ循ç¯
quit=True
clock=pygame.time.Clock()
while?quit:
#å¤çäºä»¶for?event?in?pygame.event.get():if?event.type==pygame.QUIT:
quit=Falseelif?event.type==pygame.KEYDOWN:
if?event.key==?or?event.key==:if?direct=='left'?or?direct=='right':
direct='up'elif?event.key==?or?event.key==:if?direct?==?'left'?or?direct?==?'right':
direct='down'elif?event.key==?or?event.key==:if?direct?==?'up'?or?direct?==?'down':
direct='left'elif?event.key==?or?event.key==:if?direct?==?'up'?or?direct?==?'down':
direct='right'#åä¸è¥¿eat=(head.row==food.row?and?head.col==food.col)#éæ°äº§çé£ç©if?eat:food?=?gen_food()
#å¤ç身å#1.æåæ¥ç头ï¼æå ¥å°snakesç头ä¸snakes.insert(0,?head.copy())#2.æsnakesçæåä¸ä¸ªå æif?not?eat:snakes.pop()
#移å¨if?direct=='left':head.col-=1
elif?direct=='right':head.col+=1
elif?direct=='up':head.row-=1
elif?direct=='down':head.row+=1
#æ£æµdead=False#1.æå¢if?head.col0?or?head.row0?or?head.col=COL?or?head.row=ROW:dead=True
#2.æèªå·±for?snake?in?snakes:if?head.col==snake.col?and?head.row==snake.row:
dead=Truebreakif?dead:print('æ»äº')
quit=False
#渲æââç»åºæ¥#èæ¯pygame.draw.rect(window,?bg_color,?(0,0,W,H))#è头for?snake?in?snakes:rect(snake,?snake_color)
rect(head,?head_color)rect(food,?food_color)#pygame.display.flip()#设置帧é¢ï¼é度ï¼clock.tick(8)#æ¶å°¾å·¥ä½
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fromsklearnimportpreprocessing
importnumpyasnp
X=np.array([[1.,-1.,2.],[2.,0.,0.],[0.,1.,-1.]])
X_scaled=preprocessing.scale(X)
print(X_scaled)
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可以帮我写一个贪吃蛇的游戏代码吗
当然可以。下面是一个简单的贪吃蛇游戏代码,使用Python的pygame库实现。
python
import pygame
import random
# 初始化pygame
pygame.init()
# 设置屏幕大小
screen = pygame.display.set_mode((, ))
# 设置颜色
WHITE = (, , )
RED = (, 0, 0)
GREEN = (0, , 0)
BLACK = (0, 0, 0)
# 设置蛇和食物的大小
SNAKE_SIZE =
FOOD_SIZE =
# 设置游戏速度
SPEED =
# 定义蛇类
class Snake:
def __init__(self):
self.body = [(, ), (, ), (, )]
self.direction = (, 0)
def move(self):
head = self.body[0]
new_head = ((head[0] + self.direction[0]) % , (head[1] + self.direction[1]) % )
self.body = [new_head] + self.body[:-1]
def grow(self):
head = self.body[0]
new_head = ((head[0] + self.direction[0]) % , (head[1] + self.direction[1]) % )
self.body = [new_head] + self.body
def draw(self):
for segment in self.body:
pygame.draw.rect(screen, GREEN, (segment[0], segment[1], SNAKE_SIZE, SNAKE_SIZE))
# 定义食物类
class Food:
def __init__(self):
self.position = (random.randint(0, // SNAKE_SIZE) SNAKE_SIZE, random.randint(0, // SNAKE_SIZE) SNAKE_SIZE)
def draw(self):
pygame.draw.rect(screen, RED, self.position + (0, 0, FOOD_SIZE, FOOD_SIZE))
# 创建蛇和食物对象
snake = Snake()
food = Food()
# 设置游戏结束标志
game_over = False
# 游戏主循环
while not game_over:
for event in pygame.event.get():
if event.type == pygame.QUIT:
game_over = True
elif event.type == pygame.KEYDOWN:
if event.key == pygame.K_UP and snake.direction != (0, ):
snake.direction = (0, -)
elif event.key == pygame.K_DOWN and snake.direction != (0, -):
snake.direction = (0, )
elif event.key == pygame.K_LEFT and snake.direction != (, 0):
snake.direction = (-, 0)
elif event.key == pygame.K_RIGHT and snake.direction != (-, 0):
snake.direction = (, 0)
screen.fill(BLACK)
snake.move()
if snake.body[0] == food.position:
snake.grow()
food = Food()
snake.draw()
food.draw()
pygame.display.flip()
pygame.time.Clock().tick(SPEED)
pygame.quit()
代码这个贪吃蛇游戏使用Python的pygame库实现。游戏的主要部分包括一个蛇类和一个食物类。蛇类有一个身体列表,用于存储蛇的webpack 源码剖析每个部分的位置,以及一个方向元组,用于存储蛇的移动方向。蛇类还有move、grow和draw方法,分别用于移动蛇、增加蛇的pixhawk 修改源码长度和绘制蛇。食物类有一个位置属性,用于存储食物的位置,以及一个draw方法,用于绘制食物。游戏的主循环使用pygame的事件循环来处理用户的输入和游戏逻辑。在游戏循环中,首先检查是否有退出事件,如果有,则设置游戏结束标志为True。然后检查是否有按键事件,如果有,则根据按键的方向更新蛇的移动方向。接下来,移动蛇,检查蛇是否吃到食物,如果吃到食物,则增加蛇的长度并重新生成食物。最后,绘制蛇和食物,
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#includestdio.h
#includestdlib.h
#defineNUM
/*runthisprogramusingtheconsolepauseroraddyourowngetch,system("pause")orinputloop*/
//å泡æåºç®æ³
//åºæ¬ææ³ï¼æ¯è¾ç¸é»ç两个æ°ï¼å¦æåè æ¯åè 大ï¼åè¿è¡äº¤æ¢ãæ¯ä¸è½®æåºç»æï¼éåºä¸ä¸ªæªæåºä¸æ大çæ°æ¾å°æ°ç»åé¢ã
voidbubbleSort(int*arr,intn){
inti,j;
for(i=0;in-1;i++)
for(j=0;jn-i-1;j++){
//å¦æåé¢çæ°æ¯åé¢å¤§ï¼è¿è¡äº¤æ¢
if(arr[j]arr[j+1]){
inttemp=arr[j];
arr[j]=arr[j+1];
arr[j+1]=temp;
}
}
}
//æå·®æ¶é´å¤æ度为O(n^2),å¹³åæ¶é´å¤æ度为O(n^2)ã稳å®æ§ï¼ç¨³å®ãè¾ å©ç©ºé´O(1)ã
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//å级çå泡æåºç®æ³
voidbubbleSort_1(int*arr,intn){
//设置æ°ç»å·¦å³è¾¹ç
intleft=0,right=n-1;
//å½å·¦å³è¾¹çæªéåæ¶ï¼è¿è¡æåº
while(left=right){
inti,j;
//ä»å·¦å°å³éåéåºæ大çæ°æ¾å°æ°ç»å³è¾¹
for(i=left;iright;i++){
if(arr[i]arr[i+1]){
inttemp=arr[i];
arr[i]=arr[i+1];
arr[i+1]=temp;
}
}
right--;
//ä»å³å°å·¦éåéåºæå°çæ°æ¾å°æ°ç»å·¦è¾¹
for(j=right;jleft;j--){
if(arr[j+1]arr[j]){
inttemp=arr[j];
arr[j]=arr[j+1];
arr[j+1]=temp;
}
}
left++;
}
}
intmain(intargc,char*argv[]){
intarr[NUM],i,j,temp;
printf("请è¾å ¥ä¸ªæ°ï¼\n");
for(i=0;iNUM;i++){
printf("请è¾å ¥ç¬¬(%d)个æ°ï¼",i+1);
scanf("%d",arr[i]);
}
printf("\nè¾å ¥å¦ä¸æåï¼\n");
for(i=0;iNUM;i++){
printf("%4d",arr[i]);
}/
*for(i=0;iNUM;i++){
for(j=i+1;jNUM;j++){
if(arr[i]arr[j]){
temp=arr[i];
arr[i]=arr[j];
arr[j]=temp;
}
}
}*/
bubbleSort_1(arr,NUM);
/*printf("\nä»å°å°å¤§å¦ä¸æåï¼\n");
for(i=0;iNUM;i++){
printf("%4d",arr[i]);
}*/
printf("\nä»å¤§å°å°å¦ä¸æåï¼\n");
for(i=NUM-1;i=0;i--){
printf("%4d",arr[i]);
}
return0;
}
é便ç»æä¸ä¸ªç¼ç¨ä»£ç 带ææ谢谢main()?
{ ?
inti,j,k;?
printf("\n");?
for(i=1;i5;i++)ï¼*以ä¸ä¸ºä¸é循ç¯*/
for(j=1;j5;j++)
for(k=1;k5;k++)
{
if(i!=ki!=jj!=k)/*ç¡®ä¿iãjãkä¸ä½äºä¸ç¸å*/
printf("%d,%d,%d\n",i,j,k);
}?
}
1ã代ç 解éï¼ä»¥ä¸è¿æ®µä»£ç æ¯ç¨Cè¯è¨ååºæ¥ç代ç ï¼ä»æ解å³çé®é¢æ¯ï¼æ1ã2ã3ã4个æ°åï¼è½ç»æå¤å°ä¸ªäºä¸ç¸åä¸æ éå¤æ°åçä¸ä½æ°ï¼é½æ¯å¤å°ï¼?å¯å¡«å¨ç¾ä½ãåä½ã个ä½çæ°åé½æ¯1ã2ã3ã4ãç»æææçæåååå»?æä¸æ»¡è¶³æ¡ä»¶çæåã
2ãCè¯è¨ä»ç»ï¼Cè¯è¨æ¯ä¸é¨éç¨è®¡ç®æºç¼ç¨è¯è¨ï¼åºç¨å¹¿æ³ãCè¯è¨ç设计ç®æ æ¯æä¾ä¸ç§è½ä»¥ç®æçæ¹å¼ç¼è¯ãå¤çä½çº§åå¨å¨ã产çå°éçæºå¨ç 以åä¸éè¦ä»»ä½è¿è¡ç¯å¢æ¯æ便è½è¿è¡çç¼ç¨è¯è¨ã
3ãCè¯è¨çä¼ç¹ï¼ç®æ´ç´§åãçµæ´»æ¹ä¾¿ãè¿ç®ç¬¦ä¸°å¯ãæ°æ®ç»æ丰å¯ãCæ¯ç»æå¼è¯è¨ãCè¯æ³éå¶ä¸å¤ªä¸¥æ ¼ãç¨åºè®¾è®¡èªç±åº¦å¤§ï¼ä¸è¬çé«çº§è¯è¨è¯æ³æ£æ¥æ¯è¾ä¸¥ï¼è½å¤æ£æ¥åºå ä¹ææçè¯æ³é误ãèCè¯è¨å 许ç¨åºç¼åè æè¾å¤§çèªç±åº¦ãCè¯è¨ç¨åºçæ代ç è´¨éé«ï¼ç¨åºæ§è¡æçé«ï¼ä¸è¬åªæ¯æ±ç¼ç¨åºçæçç®æ 代ç æçä½ã¸%ã
4ãå ¶ä»ç¼ç¨è¯è¨ä»ç»ï¼Python(è±å½åé³:/?pa?θ?n/ç¾å½åé³:/?pa?θÉ?n/),æ¯ä¸ç§é¢å对象ç解éå计ç®æºç¨åºè®¾è®¡è¯è¨ï¼ç±è·å °äººGuidovanRossumäºå¹´åæï¼ç¬¬ä¸ä¸ªå ¬å¼åè¡çåè¡äºå¹´ãPythonæ¯çº¯ç²¹çèªç±è½¯ä»¶ï¼?æºä»£ç å解éå¨CPythonéµå¾ªGPL(GNU?GeneralPublicLicense)åè®®ãPythonè¯æ³ç®æ´æ¸ æ°ï¼ç¹è²ä¹ä¸æ¯å¼ºå¶ç¨ç©ºç½ç¬¦(whitespace)ä½ä¸ºè¯å¥ç¼©è¿ã
pythonæ趣çç¼ç¨ä»£ç class?Point:
row=0col=0def?__init__(self,?row,?col):self.row=row
self.col=col
def?copy(self):return?Point(row=self.row,?col=self.col)
#åå§æ¡æ¶
import?pygame
import?random
#åå§å
pygame.init()
W=
H=
ROW=
COL=
size=(W,H)
window=pygame.display.set_mode(size)
pygame.display.set_caption('è´ªåè')
bg_color=(,,)
snake_color=(,,)
head=Point(row=int(ROW/2),?col=int(COL/2))
head_color=(0,,)
snakes=[
Point(row=head.row,?col=head.col+1),Point(row=head.row,?col=head.col+2),Point(row=head.row,?col=head.col+3)]
#çæé£ç©
def?gen_food():
while?1:pos=Point(row=random.randint(0,ROW-1),?col=random.randint(0,COL-1))
#
is_coll=False
#æ¯å¦è·è碰ä¸äº
if?head.row==pos.row?and?head.col==pos.col:
is_coll=True#è身å
for?snake?in?snakes:
if?snake.row==pos.row?and?snake.col==pos.col:is_coll=True
break
if?not?is_coll:
breakreturn?pos#å®ä¹åæ
food=gen_food()
food_color=(,,0)
direct='left'#left,right,up,down
#
def?rect(point,?color):
cell_width=W/COLcell_height=H/ROWleft=point.col*cell_widthtop=point.row*cell_heightpygame.draw.rect(window,?color,
(left,?top,?cell_width,?cell_height)
)pass#游æ循ç¯
quit=True
clock=pygame.time.Clock()
while?quit:
#å¤çäºä»¶for?event?in?pygame.event.get():if?event.type==pygame.QUIT:
quit=Falseelif?event.type==pygame.KEYDOWN:
if?event.key==?or?event.key==:if?direct=='left'?or?direct=='right':
direct='up'elif?event.key==?or?event.key==:if?direct?==?'left'?or?direct?==?'right':
direct='down'elif?event.key==?or?event.key==:if?direct?==?'up'?or?direct?==?'down':
direct='left'elif?event.key==?or?event.key==:if?direct?==?'up'?or?direct?==?'down':
direct='right'#åä¸è¥¿eat=(head.row==food.row?and?head.col==food.col)#éæ°äº§çé£ç©if?eat:food?=?gen_food()
#å¤ç身å#1.æåæ¥ç头ï¼æå ¥å°snakesç头ä¸snakes.insert(0,?head.copy())#2.æsnakesçæåä¸ä¸ªå æif?not?eat:snakes.pop()
#移å¨if?direct=='left':head.col-=1
elif?direct=='right':head.col+=1
elif?direct=='up':head.row-=1
elif?direct=='down':head.row+=1
#æ£æµdead=False#1.æå¢if?head.col0?or?head.row0?or?head.col=COL?or?head.row=ROW:dead=True
#2.æèªå·±for?snake?in?snakes:if?head.col==snake.col?and?head.row==snake.row:
dead=Truebreakif?dead:print('æ»äº')
quit=False
#渲æââç»åºæ¥#èæ¯pygame.draw.rect(window,?bg_color,?(0,0,W,H))#è头for?snake?in?snakes:rect(snake,?snake_color)
rect(head,?head_color)rect(food,?food_color)#pygame.display.flip()#设置帧é¢ï¼é度ï¼clock.tick(8)#æ¶å°¾å·¥ä½
è¿æ¯ä¸ä¸ªç®æçè´ªåèç代ç ï¼è½ç¶ç»æç®åï¼ä½æ¯è¯¥æçåè½é½æ¯å®æ´çï¼å¯ç©æ§ä¹ä¸é
cè¯è¨ç¼ç¨çè±ä»£ç ç®åcè¯è¨ç¼ç¨çè±ä»£ç ç®åå¦ä¸ï¼
#include"stdlib.h"
#include"graphics.h"
#include"stdio.h"
#include"math.h"
#include"conio.h"
#definePI?3.
main()
{
intgdriver=DETECT,gmode,errorcode;
inta[],b[],x,y,c,r,i,j,t;
doublerad=0.0;
/*initializegraphicsandlocalvariables*/
initgraph(gdriver,gmode,"");
/*readresultofinitialization*/
errorcode=graphresult();
if(errorcode!=grOk)?/*anerroroccurred*/
{
printf("Graphicserror:%s/n",grapherrormsg(errorcode));
printf("Pleaseanykeytohalt:");
getch();
exit(1);?/*terminatewithanerrorcode*/
}
randomize();
for(;!kbhit();)
{
x=rand()%+;/*éæºä¸å¿åæ */
y=rand()%+;
for(r=0;r=8;r++?)?/*çè±ç大å°è®¾å®*/
{
for(i=0,rad=0.0;rad2*PI;rad+=0.)?/*设å®åæ */
{
a[i++]=x+(int)r**cos(rad);
b[i]=y+(int)r**sin(rad);
}
t=i;
for(i=1;it;i++)
{
c=rand()%+1;/*åç¹çé¢è²éæº*/
setcolor(c);/*åè½:å°å½åå¾å½¢å±å¹çå½åç¬ç»é¢è²ç½®ä¸ºcolor.*/
circle(a[i],b[i],1);/*a[i],b[i]为åå¿1为åå¾ç»å*/
}
delay();
delay();
cleardevice();
å½æ°å:cleardevice?
å?è½:æ¸ é¤å¾å½¢å±å¹?
ç¨?æ³:voidfarcleardevice(void);
}
}
getch();
closegraph();
å½æ°å:closegraph
å?è½:å ³éå¾å½¢ç³»ç»
ç¨?æ³:voidfarclosegraph(void);
}
åå§åçè±åæ°
voidInit(inti)
{
//åå«ä¸ºï¼çè±ä¸å¿å°å¾çè¾¹ç¼çæè¿è·ç¦»ãçè±ä¸å¿å°å¾çå·¦ä¸è§çè·ç¦»(xãy)两个åé
intr[]={ ,,,,,,,,,,,,};
intx[]={ ,,,,,,,,,,,,};
inty[]={ ,,,,,,,,,,,,};
/****åå§åçè±*****/
Fire[i].x=0;//çè±ä¸å¿åæ
Fire[i].y=0;
Fire[i].width=;//å¾ç宽
Fire[i].height=;//å¾çé«
Fire[i].max_r=r[i];//æ大åå¾
Fire[i].cen_x=x[i];//ä¸å¿è·å·¦ä¸è§è·ç¦»
Fire[i].cen_y=y[i];
Fire[i].show=false;//æ¯å¦ç»½æ¾
Fire[i].dt=5;//绽æ¾æ¶é´é´é
Fire[i].t1=timeGetTime();
Fire[i].r=0;//ä»0å¼å§ç»½æ¾
/****åå§åçè±å¼¹*****/
Jet[i].x=-;//çè±å¼¹å·¦ä¸è§åæ
Jet[i].y=-;
Jet[i].hx=-;//çè±å¼¹åå°æé«ç¹åæ
Jet[i].hy=-;
Jet[i].height=0;//åå°é«åº¦
Jet[i].t1=timeGetTime();
Jet[i].dt=rand()%;//åå°é度æ¶é´é´é
Jet[i].n=0;//çè±å¼¹éªçå¾çä¸æ
Jet[i].shoot=false;//æ¯å¦åå°
}
Python3.4.1å¼å¸¸ï¼ 'float' object cannot be interpreted as an integer
'float' object cannot be interpreted as an integerçæææ¯ï¼floatç±»åä¸è½è§£é为intç±»å ã代ç é误å¤åºè¯¥åçå¨å¾ä¸çº¢æ¡å ç代ç è¯å¥ä¸ã
å 为使ç¨çæ¯Python3æ以å¨ææ¡è¯å¥ä¸åºè¯¥ä½¿ç¨//å»ä»£æ¿/ã
æ©å±èµæï¼
Pythonè´ªåè代ç ï¼
import pygame,sys,random,time
from pygame.locals import * #ä»pygame模åå¯¼å ¥å¸¸ç¨çå½æ°å常é
#å®ä¹é¢è²åé
black_colour = pygame.Color(0,0,0)
white_colour = pygame.Color(,,)
red_colour = pygame.Color(,0,0)
grey_colour = pygame.Color(,,)
#å®ä¹æ¸¸æç»æå½æ°
def GameOver(gamesurface):
#设置æ示åä½çæ ¼å¼
GameOver_font = pygame.font.SysFont("MicrosoftYaHei", )
#设置æ示åä½çé¢è²
GameOver_colour = GameOver_font.render('Game Over',True,grey_colour)
#设置æ示ä½ç½®
GameOver_location = GameOver_colour.get_rect()
GameOver_location.midtop = (,)
#ç»å®ä»¥ä¸è®¾ç½®å°å¥æ
gamesurface.blit(GameOver_colour,GameOver_location)
#æ示è¿è¡ä¿¡æ¯
pygame.display.flip()
#ä¼ç 5ç§
time.sleep(5)
#éåºæ¸¸æ
pygame.quit()
#éåºç¨åº
sys.exit()
#å®ä¹ä¸»å½æ°
def main():
#åå§åpygameï¼ä¸ºä½¿ç¨ç¡¬ä»¶ååå¤
pygame.init()
pygame.time.Clock()
ftpsClock = pygame.time.Clock()
#å建ä¸ä¸ªçªå£
gamesurface = pygame.display.set_mode((,))
#设置çªå£çæ é¢
pygame.display.set_caption('tanchishe snake')
#åå§ååé
#åå§åè´ªåèçèµ·å§ä½ç½®
snakeposition = [,]
#åå§åè´ªåèçé¿åº¦
snakelength = [[,],[,],[,]]
#åå§åç®æ æ¹åçä½ç½®
square_purpose = [,]
#åå§åä¸ä¸ªæ°æ¥å¤æç®æ æ¹åæ¯å¦åå¨
square_position = 1
#åå§åæ¹åï¼ç¨æ¥ä½¿è´ªåè移å¨
derection = "right"
change_derection = derection
#è¿è¡æ¸¸æ主循ç¯
while True:
#æ£æµæé®çpygameäºä»¶
for event in pygame.event.get():
if event.type==QUIT:
#æ¥æ¶å°éåºäºä»¶åï¼éåºç¨åº
pygame.quit()
sys.exit()
elif event.type==KEYDOWN:
#å¤æé®çäºä»¶,ç¨w,s,a,dæ¥è¡¨ç¤ºä¸ä¸å·¦å³
if event.key==K_RIGHT or event.key==ord('d'):
change_derection = "right"
if event.key==K_LEFT or event.key==ord('a'):
change_derection = "left"
if event.key==K_UP or event.key==ord('w'):
change_derection = "up"
if event.key==K_DOWN or event.key==ord('s'):
change_derection = "down"
if event.key==K_ESCAPE:
pygame.event.post(pygame.event.Event(QUIT))
#å¤æ移å¨çæ¹åæ¯å¦ç¸å
if change_derection =='left'and not derection =='right':
derection = change_derection
if change_derection =='right'and not derection =='left':
derection = change_derection
if change_derection == 'up' and not derection =='down':
derection = change_derection
if change_derection == 'down' and not derection == 'up':
derection = change_derection
#æ ¹æ®æ¹åï¼æ¹ååæ
if derection == 'left':
snakeposition[0] -=
if derection == 'right':
snakeposition[0] +=
if derection == 'up':
snakeposition[1] -=
if derection == 'down':
snakeposition[1] +=
#å¢å èçé¿åº¦
snakelength.insert(0,list(snakeposition))
#å¤ææ¯å¦åæç®æ æ¹å
if snakeposition[0]==square_purpose[0] and snakeposition[1]==square_purpose[1]:
square_position = 0
else:
snakelength.pop()
#éæ°çæç®æ æ¹å
if square_position ==0:
#éæºçæx,y,æ©å¤§äºååï¼å¨çªå£èå´å
x = random.randrange(1,)
y = random.randrange(1,)
square_purpose = [int(x*),int(y*)]
square_position = 1
#ç»å¶pygameæ¾ç¤ºå±
gamesurface.fill(black_colour)
for position in snakelength:
pygame.draw.rect(gamesurface,white_colour,Rect(position[0],position[1],,))
pygame.draw.rect(gamesurface,red_colour,Rect(square_purpose[0],square_purpose[1],,))
#å·æ°pygameæ¾ç¤ºå±
pygame.display.flip()
#å¤ææ¯å¦æ»äº¡
if snakeposition[0]<0 or snakeposition[0]>:
GameOver(gamesurface)
if snakeposition[1]<0 or snakeposition[1]>:
GameOver(gamesurface)
for snakebody in snakelength[1:]:
if snakeposition[0]==snakebody[0] and snakeposition[1]==snakebody[1]:
GameOver(gamesurface)
#æ§å¶æ¸¸æé度
ftpsClock.tick(5)
if __name__ == "__main__":
main()
