python123第二周作业_Python第二周作业
绘制五角星
1 importturtle2
3 turtle.color('black','red')4 turtle.pensize(10)5 turtle.begin_fill()6 for i in range(5):7 turtle.fd(200)8 turtle.rt(144)9
10 turtle.end_fill()
Superstar
绘制一组同心圆
从键盘输入半径、绘制同心圆的个数及画笔的颜色
1 importturtle2
3 turtle.pensize(10)4
5 r=eval(input())6 n=eval(input())7 color=input()8 turtle.pencolor(color)9
10 for i inrange(n):11 turtle.circle(r+(i-1)*20,360)#每个同心圆的半径差为20
12 turtle.penup()13 turtle.right(90)14 turtle.forward(20)15 turtle.left(90)16 turtle.pendown()
同心圆
键盘输入:
20
4
red
绘制渐变的圆
描述
利用turtle库的circle(50)函数可以画半径为50的圆,circle(50,steps=n)可以画半径为50的圆的内接正n边形,利用这个方法绘制示例中的图形,设置画笔为蓝色并用黄色填充图形。n由用户输入,要求n>=3且小于10。(注意:最后一个必须是圆,不能是正多边形)
输入格式
一个大于等于3且小于10的正整数
1 #渐变的圆
2 importturtle3
4 number = int(input()) #把用户输入转成整数
5
6 turtle.screensize(1200,1000)7 turtle.penup()8 turtle.goto(-300,0)9 turtle.pendown()10
11 turtle.pensize(5)12 turtle.color("blue","yellow")13 turtle.begin_fill()14 turtle.forward(-50)15
16 for i in range(3,number):17 turtle.circle(50, steps=i)18 turtle.forward(100)19
20 turtle.circle(50, steps=number)21 if number == 1:22 turtle.circle(50)23 else:24 turtle.forward(100)25 turtle.circle(50)26 turtle.end_fill()27 turtle.hideturtle() #隐藏海龟
View Code
输入:10
输出:
绘制叠加的等边三角形
1 importturtle2 turtle.pensize(10)3 turtle.color('purple','pink')4 turtle.begin_fill()5
6 turtle.forward(100)7 turtle.right(120)8 turtle.forward(100)9
10 turtle.right(120)11 turtle.forward(100)12 turtle.right(60)13 turtle.forward(100)14
15 turtle.right(120)16 turtle.forward(200)17 turtle.right(120)18 turtle.forward(200)19 turtle.right(120)20 turtle.forward(100)21
22 turtle.end_fill()
叠加三角形
绘制奥运五环
1 #五环
2 import turtle #引用turtle库
3 turtle.pensize(10) #设置画笔大小
4 coordA=[-110,0,110,-55,55] #各个圆X轴坐标
5 coordB=[-25,-25,-25,-75,-75] #各个圆的Y坐标
6 colors=["red","blue","green","yellow","black"]7 for i in range(5):8 turtle.pencolor(colors[i])9 turtle.penup()10 turtle.goto(coordA[i],coordB[i])11 turtle.pendown()12 turtle.circle(45)13 turtle.hideturtle() #隐藏画笔
五环
啊~五环!你比六环少一环~
绘制八卦阵
1 #八卦阵
2 importturtle3 turtle.pensize(5) #画笔大小
4 turtle.penup()5 turtle.goto(0,120)6 turtle.pendown()7
8 turtle.color("black","black")9 turtle.begin_fill()10 turtle.circle(-120,180)11 turtle.circle(-60,180)12 turtle.circle(60,180)13 turtle.end_fill()14 turtle.circle(120,180)15
16 turtle.penup()17 turtle.goto(0,40)18 turtle.pendown()19 turtle.begin_fill()20 turtle.circle(20)21 turtle.end_fill()22
23 turtle.color("black","white")24 turtle.penup()25 turtle.goto(0,-80)26 turtle.pendown()27 turtle.begin_fill()28 turtle.circle(20)29 turtle.end_fill()30
31 turtle.hideturtle() #隐藏画笔
八卦阵
这里我们取大圆的半径为120,中圆自然是它的一半,小圆我们取中圆的三分之一。这样以后,各个点的坐标都出来了
天灵灵,地灵灵~
绘制国际象棋盘
1 #国际象棋
2 importturtle3 turtle.pensize(3)4 turtle.screensize(1200,1000) #画布大小
5 turtle.color("black","black")6 n=eval(input()) #输入一个数
7
8 turtle.penup()9 turtle.goto(-4*n,4*n) #从左上角开始画
10 turtle.pendown()11 turtle.forward(8*n) #先画一个大的正方形
12 turtle.right(90)13 turtle.forward(8*n)14 turtle.right(90)15 turtle.forward(8*n)16 turtle.right(90)17 turtle.forward(8*n)18
19 coordA=[-3*n,-n,n,3*n]20 coordB=[4*n,2*n,0,-2*n]21
22 for i in range(4):23 for j in range(4):24 turtle.penup()25 turtle.goto(coordA[i],coordB[j])26 turtle.pendown()27 turtle.begin_fill()28 turtle.right(90)29 turtle.forward(n)30 turtle.right(90)31 turtle.forward(n)32 turtle.right(90)33 turtle.forward(n)34 turtle.right(90)35 turtle.forward(n)36 turtle.end_fill()37
38 coordC=[-4*n,-2*n,0,2*n]39 coordD=[3*n,n,-n,-3*n]40
41 for i in range(4):42 for j in range(4):43 turtle.penup()44 turtle.goto(coordC[i],coordD[j])45 turtle.pendown()46 turtle.begin_fill()47 turtle.right(90)48 turtle.forward(n)49 turtle.right(90)50 turtle.forward(n)51 turtle.right(90)52 turtle.forward(n)53 turtle.right(90)54 turtle.forward(n)55 turtle.end_fill()56
57 turtle.hideturtle()
国际象棋盘
题目: 画一个国际象棋盘,小格边长由用户输入2020-03-19
思路:先画一个大的正方形,设定一个N值为小正方形的边长。这样我们可以找到每个小正方形的坐标。开始绘画,按一下思路,这里会用到两层循环哦!
这是过程图:
这是结果:
注:从开始填充到结束填充,需要的是起点和终点都是同一个点。也就是说,一个封闭的图形才可以填充,否则,将会是起点和终点的连线之间所有封闭图形的填充。这也是我采用这种思路的原因。
感谢大家的浏览!