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写在前面

经常在知乎和博客上看到使用Python(大多是turtle库)绘制的图形,进行实际操作,可行的与大家分享。

一、注意事项

注意:使用pycharm进行绘图,可能会有pycharm不能识别turtle问题?

解决方法:

1.找到turtle.py(pycharm中查找文件的快捷键是ctrl+shift+N);

对 turtle.py的源码进行如下修改(每个turtle.py文件都要修改):

2.注释掉原来的_all___all__ = ['ScrolledCanvas', 'TurtleScreen', 'Screen', 'RawTurtle', 'Turtle', 'RawPen', 'Pen', 'Shape', 'Vec2D', 'back', 'backward', 'begin_fill', 'begin_poly', 'bk', 'addshape', 'bgcolor', 'bgpic', 'bye', 'clearscreen', 'colormode', 'delay', 'exitonclick', 'getcanvas', 'getshapes', 'listen', 'mainloop', 'mode', 'numinput','onkey', 'onkeypress', 'onkeyrelease', 'onscreenclick', 'ontimer', 'register_shape', 'resetscreen', 'screensize', 'setup', 'Terminator', 'setworldcoordinates', 'textinput', 'title', 'tracer', 'turtles','update', 'window_height', 'window_width', 'write_docstringdict', 'done', 'circle', 'clear', 'clearstamp', 'clearstamps', 'clone', 'color', 'degrees', 'distance', 'dot', 'down', 'end_fill', 'end_poly', 'fd','fillcolor', 'filling', 'forward', 'get_poly', 'getpen', 'getscreen', 'get_shapepoly', 'getturtle', 'goto','heading', 'hideturtle', 'home', 'ht', 'isdown', 'isvisible', 'left', 'lt', 'onclick', 'ondrag', 'onrelease','pd', 'pen', 'pencolor', 'pendown', 'pensize', 'penup', 'pos', 'position', 'pu', 'radians', 'right', 'reset', 'resizemode', 'rt', 'seth', 'setheading', 'setpos', 'setposition', 'settiltangle', 'setundobuffer', 'setx','sety', 'shape', 'shapesize', 'shapetransform', 'shearfactor', 'showturtle', 'speed', 'st', 'stamp', 'tilt','tiltangle', 'towards', 'turtlesize', 'undo', 'undobufferentries', 'up', 'width', 'write', 'xcor', 'ycor']

二、上图

1、玫瑰花

from turtle import *

import time

setup(1400,800,0,0) #宽,高、后面两个表示矩形窗口左上角顶点的位置,如果为空,窗口位于屏幕中心

speed(0) #【0-10】数值越大越快

penup() #把笔抬起来

seth(60) #轨迹运动方向,参数为角度(逆时针,以正东方向为0度)

fd(340) #直行340像素

seth(0)

pendown() #落下画笔

speed(5)

begin_fill() #开始填充

fillcolor('red') #设置填充颜色

circle(50,30) #画一个闭合的图,先画图然后再填充颜色

for i in range(10):

fd(1)

left(10) #海龟左转

circle(40,40)

for i in range(6):

fd(1)

left(3)

circle(80,40)

for i in range(20):

fd(0.5)

left(5)

circle(80,45)

for i in range(10):

fd(2)

left(1)

circle(80,25)

for i in range(20):

fd(1)

left(4)

circle(50,50)

time.sleep(0.1) #在最后加这个函数不会立即关闭窗口

circle(120,55)

speed(0)

seth(-90)

fd(70)

right(150)

fd(20)

left(140)

circle(140,90)

left(30)

circle(160,100)

left(130)

fd(25)

penup()

right(150)

circle(40,80)

pendown()

left(115)

fd(60)

penup()

left(180)

fd(60)

pendown()

end_fill()

right(120)

circle(-50,50)

circle(-20,90)

speed(1)

fd(75)

speed(0)

circle(90,110)

penup()

left(162)

fd(185)

left(170)

pendown()

circle(200,10)

circle(100,40)

circle(-52,115)

left(20)

circle(100,20)

circle(300,20)

speed(1)

fd(250)

penup()

speed(0)

left(180)

fd(250)

circle(-300,7)

right(80)

circle(200,5)

pendown()

left(60)

begin_fill()

fillcolor('green')

circle(-80,100)

right(90)

fd(10)

left(20)

circle(-63,127)

end_fill()

penup()

left(50)

fd(20)

left(180)

pendown()

circle(200,25)

penup()

right(150)

fd(180)

right(40)

pendown()

begin_fill()

fillcolor('green')

circle(-100,80)

right(150)

fd(10)

left(60)

circle(-80,98)

end_fill()

penup()

left(60)

fd(13)

left(180)

pendown()

speed(1)

circle(-200,23)

exitonclick()

2、动态樱花

import turtle as T

import random

import time

# 画樱花的躯干(60,t)

def Tree(branch, t):

time.sleep(0.0005)

if branch > 7:

if 8 <= branch <= 12:

if random.randint(0, 2) == 0:

t.color('snow') # 白

else:

t.color('lightcoral') # 淡珊瑚色

t.pensize(branch / 3)

elif branch < 8:

if random.randint(0, 1) == 0:

t.color('snow')

else:

t.color('lightcoral') # 淡珊瑚色

t.pensize(branch / 2)

else:

t.color('sienna') # 赭(zhě)色

t.pensize(branch / 10) # 6

t.forward(branch)

a = 1.5 * random.random()

t.right(20 * a)

b = 1.5 * random.random()

Tree(branch - 10 * b, t)

t.left(40 * a)

Tree(branch - 10 * b, t)

t.right(20 * a)

t.up()

t.backward(branch)

t.down()

# 掉落的花瓣

def Petal(m, t):

for i in range(m):

a = 200 - 400 * random.random()

b = 10 - 20 * random.random()

t.up()

t.forward(b)

t.left(90)

t.forward(a)

t.down()

t.color('lightcoral') # 淡珊瑚色

t.circle(1)

t.up()

t.backward(a)

t.right(90)

t.backward(b)

# 绘图区域

t = T.Turtle()

# 画布大小

w = T.Screen()

t.hideturtle() # 隐藏画笔

t.getscreen().tracer(5, 0)

w.screensize(bg='wheat') # wheat小麦

t.left(90)

t.up()

t.backward(150)

t.down()

t.color('sienna')

# 画樱花的躯干

Tree(60, t)

# 掉落的花瓣

Petal(200, t)

w.exitonclick()

3、有飘落效果的樱花

from turtle import *

from random import *

from math import *

def tree(n,l):

pd()#下笔

#阴影效果

t = cos(radians(heading()+45))/8+0.25

pencolor(t,t,t)

pensize(n/3)

forward(l)#画树枝

if n>0:

b = random()*15+10 #右分支偏转角度

c = random()*15+10 #左分支偏转角度

d = l*(random()*0.25+0.7) #下一个分支的长度

#右转一定角度,画右分支

right(b)

tree(n-1,d)

#左转一定角度,画左分支

left(b+c)

tree(n-1,d)

#转回来

right(c)

else:

#画叶子

right(90)

n=cos(radians(heading()-45))/4+0.5

pencolor(n,n*0.8,n*0.8)

circle(3)

left(90)

#添加0.3倍的飘落叶子

if(random()>0.7):

pu()

#飘落

t = heading()

an = -40 +random()*40

setheading(an)

dis = int(800*random()*0.5 + 400*random()*0.3 + 200*random()*0.2)

forward(dis)

setheading(t)

#画叶子

pd()

right(90)

n = cos(radians(heading()-45))/4+0.5

pencolor(n*0.5+0.5,0.4+n*0.4,0.4+n*0.4)

circle(2)

left(90)

pu()

#返回

t=heading()

setheading(an)

backward(dis)

setheading(t)

pu()

backward(l)#退回

bgcolor(0.5,0.5,0.5)#背景色

ht()#隐藏turtle

speed(0)#速度 1-10渐进,0 最快

tracer(0,0)

pu()#抬笔

backward(100)

left(90)#左转90度

pu()#抬笔

backward(300)#后退300

tree(12,100)#递归7层

done()

4、暗色效果樱花

from turtle import *

from random import *

from math import *

def tree(n, l):

pd()

t = cos(radians(heading() + 45)) / 8 + 0.25

pencolor(t, t, t)

pensize(n / 4)

forward(l)

if n > 0:

b = random() * 15 + 10

c = random() * 15 + 10

d = l * (random() * 0.35 + 0.6)

right(b)

tree(n - 1, d)

left(b + c)

tree(n - 1, d)

right(c)

else:

right(90)

n = cos(radians(heading() - 45)) / 4 + 0.5

pencolor(n, n, n)

circle(2)

left(90)

pu()

backward(l)

bgcolor(0.5, 0.5, 0.5)

ht()

speed(0)

tracer(0, 0)

left(90)

pu()

backward(300)

tree(13, 100)

done()

5、动态生成圣诞树

from turtle import *

import random

import time

n = 100.0

speed("fastest")

screensize(bg='seashell')

left(90)

forward(3*n)

color("orange", "yellow")

begin_fill()

left(126)

for i in range(5):

forward(n/5)

right(144)

forward(n/5)

left(72)

end_fill()

right(126)

color("dark green")

backward(n*4.8)

def tree(d, s):

if d <= 0: return

forward(s)

tree(d-1, s*.8)

right(120)

tree(d-3, s*.5)

right(120)

tree(d-3, s*.5)

right(120)

backward(s)

tree(15, n)

backward(n/2)

for i in range(200):

a = 200 - 400 * random.random()

b = 10 - 20 * random.random()

up()

forward(b)

left(90)

forward(a)

down()

if random.randint(0, 1) == 0:

color('tomato')

else:

color('wheat')

circle(2)

up()

backward(a)

right(90)

backward(b)

time.sleep(60)

参考:博客园

持续更新中......