入门
import turtle
t=turtle.Pen()
for i in range(4):
t.forward(100)
t.left(4)
t.reset()
i = 0
while i < 4:
t.backward(100)
t.right(90)
i+=1
正方形
from turtle import *
forward(100)
left(90)
forward(100)
left(90)
forward(100)
left(90)
forward(100)
left(90)
exitonclick()
等边三角形
from turtle import *
forward(100)
left(120)
forward(100)
left(120)
forward(100)
left(120)
exitonclick()
五角星
from turtle import *
for i in range(5):
forward(100)
left(180-36)
exitonclick()
向日葵
from turtle import *
from math import sin
angle = 360/8
length=100
speed(0)
for i in range(8):
if i %2==0:
color('red')
else:
color('blue')
begin_fill()
forward(length)
left(angle)
forward(length)
left(180-angle)
forward(length)
left(angle)
forward(length)
left(180)
end_fill()
angle2=180-(180-angle)/2.0
forward(length)
left(angle2)
alpha=angle*3.1415926536/180
step =2*length*sin(alpha/2)
color('yellow')
begin_fill()
for i in range(8):
forward(step)
left(angle)
end_fill()
exitonclick()
L系统
from turtle import *
length = 10
angle = 90
def draw_path(path):
for symbol in path:
if symbol =='F':
forward(length)
elif symbol =='-':
left(angle)
else:
right(angle)
def apply_rule(path):
rule = "F-F+F+FF-F-F+F"
return path.replace("F",rule)
path ='F-F-F-F'
speed(0)
for i in range(2):
path = apply_rule(path)
draw_path(path)
exitonclick()
复杂L系统
from turtle import *
length = 10
angle = 90
def split_path(path):
i = 0
lst =[]
while i < len(path):
if path[i] =='F':
lst.append(path[i :i+2])
i+=2
else:
lst.append(path[i])
i+=1
return lst
def apply_rule(path,rules):
lst =split_path(path)
for i in range(len(lst)):
symbol = lst[i]
if symbol in rules:
lst[i] = rules[symbol]
path = "".join(symbol for symbol in lst)
return path
def draw_path(path):
lst =split_path(path)
for symbol in lst:
if symbol =='Fl' or symbol == 'Fr':
forward(length)
elif symbol =="+":
left(angle)
else:
right(angle)
rules={
"Fl":"Fl+Fr+",
"Fr":"-Fl-Fr"
}
path ='Fl+Fr+'
speed(0)
for i in range(10):
path = apply_rule(path,rules)
draw_path(path)
exitonclick()
京公网安备 11010502036488号