• 递归表达


    #汉诺塔函数递归链条递归基例表达
    count =0
    def hanoi (n,src,dst,mid):
        global count
        if n==1:
            print("{}:{}->{}".format(1,src,dst))
            count +=1
        else :
            hanoi(n-1,src,mid,dst)
            print("{}:{}->{}".format(n,src,dst))
            count +=1
            hanoi(n-1,mid,dst,src)
    hanoi(3,"A","C","B")
    print(count)

    只考虑n次与n-1次的关系

    以下摘自网络(日后学习的榜样.真正的绝活)

    import turtle
    
    class Stack:
        def __init__(self):
            self.items = []
        def isEmpty(self):
            return len(self.items) == 0
        def push(self, item):
            self.items.append(item)
        def pop(self):
            return self.items.pop()
        def peek(self):
            if not self.isEmpty():
                return self.items[len(self.items) - 1]
        def size(self):
            return len(self.items)
    
    def drawpole_3():#画出汉诺塔的poles
        t = turtle.Turtle()
        t.hideturtle()
        def drawpole_1(k):
            t.up()
            t.pensize(10)
            t.speed(100)
            t.goto(400*(k-1), 100)
            t.down()
            t.goto(400*(k-1), -100)
            t.goto(400*(k-1)-20, -100)
            t.goto(400*(k-1)+20, -100)
        drawpole_1(0)#画出汉诺塔的poles[0]
        drawpole_1(1)#画出汉诺塔的poles[1]
        drawpole_1(2)#画出汉诺塔的poles[2]
    
    def creat_plates(n):#制造n个盘子
        plates=[turtle.Turtle() for i in range(n)]
        for i in range(n):
            plates[i].up()
            plates[i].hideturtle()
            plates[i].shape("square")
            plates[i].shapesize(1,8-i)
            plates[i].goto(-400,-90+20*i)
            plates[i].showturtle()
        return plates
    
    def pole_stack():#制造poles的栈
        poles=[Stack() for i in range(3)]
        return poles
    
    def moveDisk(plates,poles,fp,tp):#把poles[fp]顶端的盘子plates[mov]从poles[fp]移到poles[tp]
        mov=poles[fp].peek()
        plates[mov].goto((fp-1)*400,150)
        plates[mov].goto((tp-1)*400,150)
        l=poles[tp].size()#确定移动到底部的高度(恰好放在原来最上面的盘子上面)
        plates[mov].goto((tp-1)*400,-90+20*l)
    
    def moveTower(plates,poles,height,fromPole, toPole, withPole):#递归放盘子
        if height >= 1:
            moveTower(plates,poles,height-1,fromPole,withPole,toPole)
            moveDisk(plates,poles,fromPole,toPole)
            poles[toPole].push(poles[fromPole].pop())
            moveTower(plates,poles,height-1,withPole,toPole,fromPole)
    
    myscreen=turtle.Screen()
    drawpole_3()
    n=int(input("请输入汉诺塔的层数并回车:"))
    plates=creat_plates(n)
    poles=pole_stack()
    for i in range(n):
        poles[0].push(i)
    moveTower(plates,poles,n,0,2,1)
    myscreen.exitonclick()

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  • 原文地址:https://www.cnblogs.com/lalalala-fan/p/12608858.html
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