1 1 from turtle import * 2 3 def square(size=50, rgb='orange'): 4 pencolor(rgb) 5 for i in range(4): 6 fd(size) 7 left(90) 8 9 def main(): 10 setup(800,600) 11 speed(0) 12 13 n=10 14 for i in
from turtle import * def square(size=50,rgb='yellow'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800,600) speed(0) n=10 for i in range(n): square(80) left(360/n)
task3 1 from turtle import * 2 3 def square(size=50, rgb='orange'): 4 '''绘制正方形 5 参数size指定边长 6 参数rgb指定画笔颜色 7 如果没有给参数,采用默认值 8 ''' 9 pencolor(rgb) 10 for i in range(4): 11
task--3 from turtle import * def square(size=50,rgb='pink'): rgb = 'yellow' pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800,600) speed(0) n = 10 for i in range(n)
from turtle import* def square(size=50,rgb='orange'): '''绘制rgb正方形 参数size指定边长 参数指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4): fd(size) left(90) def main():
from turtle import* def square(size=50,rgb='orange'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800,600) speed(0) n=10 for i in range(n): square(80) left(360/
task3.py 1 from turtle import * 2 3 def square(size=50, rgb='orange'): 4 pencolor(rgb) 5 for i in range(4): 6 fd(size) 7 left(90) 8 9 10 def main(): 11 setup(800, 600) 12 speed(0) 13 14 n = 10 15
------------恢复内容开始------------ #task3.py from turtle import * def square(size=50, rgb='orange'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4):
from turtle import * def square(size=50, rgb='pink'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4): fd(size) left(90) def main():
任务3 from turtle import * def square(size=50, rgb='pink'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4): fd(size) left(90) def main
from turtle import *def square(size=50, c='pink'): pencolor(c) for i in range(4): fd(size) left(90)def main(): setup(800, 600) speed(0) n = 10 for i in range(n): square(80) left(360/n) hid
#元祖 只读列表,可循环查询,可切片。#儿子不能改,孙子可能可以改。# tu = (1,2,3,'alex',[2,3,4,'taibai'],'egon')# # print(tu[3])# # print(tu[0:4])# # for i in tu:# # print(i)# tu[4][3]=tu[4][3].upper()# print(tu)# tu[4].append('sb')# print(tu)#
from turtle import* def square(size=50,rgb='orange'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800,600) speed(10) n=10 for i in range(n): square(80) left(360/n)
import numpy as np #优化前 def Dtw(a, b): dis = np.full((len(a) + 1, len(b) + 1), np.inf) dis[0, 0] = 0 for i in range(0, len(a)): for j in range(0, len(b)): print(a[i],b[j]) dis[i + 1, j + 1] = (a[i] - b[j]) ** 2
8.3 from turtle import * def square(size=50, rgb='red'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800, 600) speed(0) n = 10 for i in range(n): square(80) left
一、概述 所谓断点续传,其实只是指下载,也就是要从文件已经下载的地方开始继续下载。在以前版本的HTTP协议是不支持断点的,HTTP/1.1开始就支持了。一般断点下载时才用到Range和Content-Range实体头。HTTP协议本身不支持断点上传,需要自己实现。 二、Range 用于请求头中,
实验三 #给出实现绘制以下图案的完整源码,修改颜色值,并附上运行结果截图。 from turtle import * def square(size=50, rgb='orange'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in ra
from turtle import * def square(size=50, rgb='gold'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800, 600) speed(0) n = 10 for i in range(
from turtle import* setup(800,600) speed(0) pencolor('pink') n=10 for i in range(n): for j in range(2): circle(80,90) left(90) right(360/n) hideturtle() done() from turtle import* setup(800,6
from turtle import * def square(size=50, rgb='orange'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值''' pencolor(rgb) for i in range(4): fd(size) left(90) def main():
实验任务3; from turtle import * def square(size=50, rgb='pink'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4): fd(size) left(90) def main
from turtle import * def square(size=50, rgb='pink'): '''绘制正方形 参数size指定边长 参数rgb指定画笔颜色 如果没有给参数,采用默认值 ''' pencolor(rgb) for i in range(4): fd(size) left(90) def main():
实验任务3 from turtle import* def square(size=50,rgb='pink'): pencolor(rgb) for i in range(4): fd(size) left(90) def main(): setup(800,600) speed(0) n=10 for i in range(n): square(80,'orange
1 from turtle import* 2 3 def square(size=50,rgb='pink'): 4 pencolor(rgb) 5 for i in range(4): 6 fd(size) 7 lt(90) 8 9 10 def main(): 11 setup(800,600) 12 speed(0) 13 14 n = 10 15 for i in ran
B站视频链接:从零开始写代码 Python 8分钟实现Floyd最短路径算法_哔哩哔哩_bilibili ppt 代码为 network=[[0,1,0,2,0,0], [1,0,2,4,3,0], [0,2,0,0,1,4], [2,4,0,0,6,0], [0,3