python實(shí)現(xiàn)俄羅斯方塊游戲

更新時(shí)間：2020年03月25日 09:05:07 作者：rongyongfeikai2

這篇文章主要為大家介紹了python實(shí)現(xiàn)俄羅斯方塊游戲的詳細(xì)代碼，文中示例代碼介紹的非常詳細(xì)，具有一定的參考價(jià)值，感興趣的小伙伴們可以參考一下

在公司實(shí)習(xí)。公司推崇Python和Django框架，所以也得跟著學(xué)點(diǎn)。

簡(jiǎn)單瞅了下Tkinter，和Canvas配合在一起，還算是簡(jiǎn)潔的界面開(kāi)發(fā)API。threading.Thread創(chuàng)建新的線(xiàn)程，其多線(xiàn)程機(jī)制也算是方便。

只是canvas.create_rectangle居然不是繪制矩形，而是新建了矩形控件這點(diǎn)讓人大跌眼鏡。先開(kāi)始，在線(xiàn)程里每次都重繪多個(gè)矩形（隨數(shù)組變化），其實(shí)是每次都新建了N個(gè)矩形，結(jié)果內(nèi)存暴增。原來(lái)，對(duì)矩形進(jìn)行變更時(shí)，只需用canvas.itemconfig即可。

下面就是截圖（時(shí)間太晚，明日還得上班，做得非常粗糙...沒(méi)事時(shí)再慢慢修正）。

而代碼如下：

#coding=utf-8 
from Tkinter import *; 
from random import *; 
import thread; 
from tkMessageBox import showinfo; 
import threading; 
from time import sleep; 
class BrickGame(object): 
 
 #是否開(kāi)始 
 start = True; 
 #是否到達(dá)底部 
 isDown = True; 
 
 #窗體 
 window = None; 
 #frame 
 frame1 = None; 
 
 #繪圖類(lèi) 
 canvas = None; 
 
 #標(biāo)題 
 title = "BrickGame"; 
 #寬和高 
 width = 350; 
 height = 670; 
 
 #行和列 
 rows = 20; 
 cols = 10; 
 
 #幾種方塊 
 brick = [ 
 
 [ 
 [ 
 [1,1,1], 
 [0,0,1], 
 [0,0,0] 
 ], 
 [ 
 [0,0,1], 
 [0,0,1], 
 [0,1,1] 
 ], 
 [ 
 [0,0,0], 
 [1,0,0], 
 [1,1,1] 
 ], 
 [ 
 [1,1,0], 
 [1,0,0], 
 [1,0,0] 
 ] 
 ], 
 [ 
 [ 
 [0,0,0], 
 [0,1,1], 
 [0,1,1] 
 ], 
 [ 
 [0,0,0], 
 [0,1,1], 
 [0,1,1] 
 ], 
 [ 
 [0,0,0], 
 [0,1,1], 
 [0,1,1] 
 ], 
 [ 
 [0,0,0], 
 [0,1,1], 
 [0,1,1] 
 ] 
 ], 
 [ 
 [ 
 [1,1,1], 
 [0,1,0], 
 [0,1,0] 
 ], 
 [ 
 [0,0,1], 
 [1,1,1], 
 [0,0,1] 
 ], 
 [ 
 [0,1,0], 
 [0,1,0], 
 [1,1,1] 
 ], 
 [ 
 [1,0,0], 
 [1,1,1], 
 [1,0,0] 
 ] 
 ], 
 [ 
 [ 
 [0,1,0], 
 [0,1,0], 
 [0,1,0] 
 ], 
 [ 
 [0,0,0], 
 [1,1,1], 
 [0,0,0] 
 ], 
 [ 
 [0,1,0], 
 [0,1,0], 
 [0,1,0] 
 ], 
 [ 
 [0,0,0], 
 [1,1,1], 
 [0,0,0] 
 ] 
 ] 
 ]; 
 
 #當(dāng)前的方塊 
 curBrick = None; 
 #當(dāng)前方塊數(shù)組 
 arr = None; 
 #當(dāng)前方塊形狀 
 shape = -1; 
 #當(dāng)前方塊的行和列（最左上角） 
 curRow = -10; 
 curCol = -10; 
 
 #背景 
 back = list(); 
 #格子 
 gridBack = list(); 
 
 #初始化 
 def init(self): 
 
 for i in range(0,self.rows): 
 
 self.back.insert(i,list()); 
 self.gridBack.insert(i,list()); 
 
 for i in range(0,self.rows): 
 
 for j in range(0,self.cols): 
 
 self.back[i].insert(j,0); 
 self.gridBack[i].insert(j,self.canvas.create_rectangle(30*j,30*i,30*(j+1),30*(i+1),fill="black")); 
 
 #繪制游戲的格子 
 def drawRect(self): 
 
 for i in range(0,self.rows): 
 
 for j in range(0,self.cols): 
 
 
 if self.back[i][j]==1: 
 
 self.canvas.itemconfig(self.gridBack[i][j],fill="blue",outline="white"); 
 
 elif self.back[i][j]==0: 
 
 self.canvas.itemconfig(self.gridBack[i][j],fill="black",outline="white"); 
 
 
 #繪制當(dāng)前正在運(yùn)動(dòng)的方塊 
 if self.curRow!=-10 and self.curCol!=-10: 
 
 for i in range(0,len(self.arr)): 
 
 for j in range(0,len(self.arr[i])): 
 
 if self.arr[i][j]==1: 
 
 self.canvas.itemconfig(self.gridBack[self.curRow+i][self.curCol+j],fill="blue",outline="white"); 
 
 #判斷方塊是否已經(jīng)運(yùn)動(dòng)到達(dá)底部 
 if self.isDown: 
 
 for i in range(0,3): 
 
 for j in range(0,3): 
 
 if self.arr[i][j]!=0: 
 
 self.back[self.curRow+i][self.curCol+j] = self.arr[i][j]; 
 
 #判斷整行消除 
 self.removeRow(); 
 
 #獲得下一個(gè)方塊 
 self.getCurBrick(); 
 
 #判斷是否有整行需要消除 
 def removeRow(self): 
 
 for i in range(0,self.rows): 
 
 tag1 = True; 
 for j in range(0,self.cols): 
 
 if self.back[i][j]==0: 
 
 tag1 = False; 
 break; 
 
 if tag1==True: 
 
 #從上向下挪動(dòng) 
 for m in xrange(i-1,0,-1): 
 
 for n in range(0,self.cols): 
 
 self.back[m+1][n] = self.back[m][n]; 
 
 #獲得當(dāng)前的方塊 
 def getCurBrick(self): 
 
 self.curBrick = randint(0,len(self.brick)-1); 
 self.shape = 0; 
 #當(dāng)前方塊數(shù)組 
 self.arr = self.brick[self.curBrick][self.shape]; 
 
 self.curRow = 0; 
 self.curCol = 1; 
 
 #是否到底部為False 
 self.isDown = False; 
 
 #監(jiān)聽(tīng)鍵盤(pán)輸入 
 def onKeyboardEvent(self,event): 
 
 #未開(kāi)始，不必監(jiān)聽(tīng)鍵盤(pán)輸入 
 if self.start == False: 
 
 return; 
 
 #記錄原來(lái)的值 
 tempCurCol = self.curCol; 
 tempCurRow = self.curRow; 
 tempShape = self.shape; 
 tempArr = self.arr; 
 direction = -1; 
 
 if event.keycode==37: 
 
 #左移 
 self.curCol-=1; 
 direction = 1; 
 elif event.keycode==38: 
 #變化方塊的形狀 
 self.shape+=1; 
 direction = 2; 
 
 if self.shape>=4: 
 
 self.shape=0; 
 self.arr = self.brick[self.curBrick][self.shape]; 
 elif event.keycode==39: 
 
 direction = 3; 
 #右移 
 self.curCol+=1; 
 elif event.keycode==40: 
 
 direction = 4; 
 #下移 
 self.curRow+=1; 
 
 if self.isEdge(direction)==False: 
 
 self.curCol = tempCurCol; 
 self.curRow = tempCurRow; 
 self.shape = tempShape; 
 self.arr = tempArr; 
 
 self.drawRect(); 
 
 return True; 
 
 #判斷當(dāng)前方塊是否到達(dá)邊界 
 def isEdge(self,direction): 
 
 tag = True; 
 
 #向左，判斷邊界 
 if direction==1: 
 
 for i in range(0,3): 
 
 for j in range(0,3): 
 
 if self.arr[j][i]!=0 and (self.curCol+i<0 or self.back[self.curRow+j][self.curCol+i]!=0): 
 
 tag = False; 
 break; 
 #向右，判斷邊界 
 elif direction==3: 
 
 for i in range(0,3): 
 
 for j in range(0,3): 
 
 if self.arr[j][i]!=0 and (self.curCol+i>=self.cols or self.back[self.curRow+j][self.curCol+i]!=0): 
 
 tag = False; 
 break; 
 #向下，判斷底部 
 elif direction==4: 
 
 for i in range(0,3): 
 
 for j in range(0,3): 
 
 if self.arr[i][j]!=0 and (self.curRow+i>=self.rows or self.back[self.curRow+i][self.curCol+j]!=0): 
 
 tag = False; 
 self.isDown = True; 
 break; 
 #進(jìn)行變形，判斷邊界 
 elif direction==2: 
 
 if self.curCol<0: 
 
 self.curCol=0; 
 
 if self.curCol+2>=self.cols: 
 
 self.curCol = self.cols-3; 
 
 if self.curRow+2>=self.rows: 
 
 self.curRow = self.curRow-3; 
 
 
 return tag; 
 
 #方塊向下移動(dòng) 
 def brickDown(self): 
 
 while True: 
 
 if self.start==False: 
 
 print("exit thread"); 
 break; 
 
 tempRow = self.curRow; 
 self.curRow+=1; 
 
 if self.isEdge(4)==False: 
 
 self.curRow = tempRow; 
 
 self.drawRect(); 
 
 #每一秒下降一格 
 sleep(1); 
 
 #運(yùn)行 
 def __init__(self): 
 
 self.window = Tk(); 
 self.window.title(self.title); 
 self.window.minsize(self.width,self.height); 
 self.window.maxsize(self.width,self.height); 
 
 self.frame1 = Frame(self.window,width=300,height=600,bg="black"); 
 self.frame1.place(x=20,y=30); 
 
 self.canvas = Canvas(self.frame1,width=300,height=600,bg="black"); 
 
 self.init(); 
 
 #獲得當(dāng)前的方塊 
 self.getCurBrick(); 
 
 #按照數(shù)組，繪制格子 
 self.drawRect(); 
 
 self.canvas.pack(); 
 
 #監(jiān)聽(tīng)鍵盤(pán)事件 
 self.window.bind("<KeyPress>",self.onKeyboardEvent); 
 
 #啟動(dòng)方塊下落線(xiàn)程 
 downThread = threading.Thread(target=self.brickDown,args=()); 
 downThread.start(); 
 
 self.window.mainloop(); 
 
 self.start=False; 
 
 pass; 
 
if __name__=='__main__': 
 
 brickGame = BrickGame();

估計(jì)用圖形界面會(huì)很少，因?yàn)楸救耸荳EB開(kāi)發(fā)。不過(guò)，怎樣也抑制不住這顆喜歡寫(xiě)游戲的心啊！

更多俄羅斯方塊精彩文章請(qǐng)點(diǎn)擊專(zhuān)題：俄羅斯方塊游戲集合進(jìn)行學(xué)習(xí)。

更多關(guān)于python游戲的精彩文章請(qǐng)點(diǎn)擊查看以下專(zhuān)題：

python經(jīng)典小游戲匯總

python微信跳一跳游戲集合

以上就是本文的全部?jī)?nèi)容，希望對(duì)大家的學(xué)習(xí)有所幫助，也希望大家多多支持腳本之家。

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