谢尔宾斯基三角形
展示的一个是三向递归的算法:从单个的大三角形开始,取它的各边中点作三条中位线,这样就把它分成了四个新的三角形;剔除掉这四个新三角形中最中间的那个,
对其余三个角上的三角形重复以上的操作
设置结束条件可以设置为我们想划分三角形的次数
import turtle import time def drawTriangle(points,color,myTurtle): myTurtle.fillcolor(color) myTurtle.up() #防止出现多余的线 myTurtle.goto(points[0][0],points[0][1]) myTurtle.down() myTurtle.begin_fill() myTurtle.goto(points[1][0],points[1][1]) myTurtle.goto(points[2][0],points[2][1]) myTurtle.goto(points[0][0],points[0][1]) myTurtle.end_fill() time.sleep(5) def getMid(a,b): return ((a[0]+b[0])/2 , (a[1] + b[1])/2) def sierpinsk(points,degree,myTurtle): colormap = ["blue","red","green","white","yellow","orange","violet"] drawTriangle(points,colormap[degree],myTurtle) if degree > 0: sierpinsk([points[0],getMid(points[0],points[1]),getMid(points[0],points[2])],degree-1,myTurtle) print("i am ready") sierpinsk([points[1],getMid(points[0],points[1]),getMid(points[1],points[2])],degree-1,myTurtle) sierpinsk([points[2],getMid(points[2],points[1]),getMid(points[0],points[2])],degree-1,myTurtle) print("this is me") def main(): myTurtle = turtle.Turtle() mtwin = turtle.Screen() mypoints = [[-100,-50],[0,100],[100,-50]] sierpinsk(mypoints,3,myTurtle) mtwin.exitonclick() main()
Sierpinski函数做的第一件事就是画外面最大的三角形,然后有三个递归调用,递归总是先处理左下角的三角形 然后处理中间的三角形,最后处理右边的三角形 getMId函数提取两个参数作为端点,然后返回两个端点组成的线段的中点
