Python|十五个超级炫酷代码

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本次博客内容将分享几个超级炫酷的Python代码和前端。
📝目前更新:🌟🌟🌟炫酷炫酷代码
💛💛💛本文目录💛💛💛

目录

1 炫酷彩虹

2 温柔的狮子 

3 旋转无尽的真心

4 520+爱心

5 鲜艳的玫瑰

6 一颗小爱心

7 一个呆萌的皮卡丘

8 小猪佩奇

9 放烟花

10 小呆呆小黄人

11 十里桃花飘落

12 炸死小坏蛋

13 哆啦A梦

14 一个微信表情包

15 秀死他

  ​​​​​​​  

1 炫酷彩虹

视频是动态的,不信你运行试试。

from turtle import *

colors = ["red", "yellow", "blue", "lime"]
bgcolor("black")

x = 6
t = [Turtle(), Turtle()]

for index, i in enumerate(t):
	i.speed(0)
	i.color("white")
	i.shape("circle")
	i.shapesize(0.3)
	i.width(3)
	i.pu()
	i.seth(90)
	i.fd(350)
	i.seth(-180)
	i.pd()

t[0].pu()
delay(0)
speed(0)
ht()

for i in colors:
	color(i)
	for i in range(360):
		t[0].fd(x)
		t[0].lt(1)
		pu()
		goto(t[0].pos())
		pd()
		t[1].fd(2 * x)
		t[1].lt(2)
		goto(t[1].pos())

done()

2 温柔的狮子 

import turtle as t
def hair():  # 画头发
    t.penup()
    t.goto(-50, 150)
    t.pendown()
    t.fillcolor('#a2774d')
    t.begin_fill()
    for j in range(10):  # 重复执行10次
        t.setheading(60 - (j * 36))  # 每次调整初始角度
        t.circle(-50, 120)  # 画120度的弧
    t.end_fill()
def face():  # 画脸
    t.penup()
    t.goto(0, 100)
    t.pendown()
    t.fillcolor('#f2ae20')
    t.begin_fill()
    t.setheading(180)
    t.circle(85)
    t.end_fill()
    # 下巴
    t.circle(85, 120)
    t.fillcolor('white')
    t.begin_fill()
    t.circle(85, 120)
    t.setheading(135)
    t.circle(100, 95)
    t.end_fill()
def ears(dir):  # 画眼睛,dir用来设置方向,左右眼对称
    t.penup()
    t.goto((0 - dir) * 30, 90)
    t.setheading(90)
    t.pendown()
    t.fillcolor('#f2ae20')
    t.begin_fill()
    t.circle(dir * 30)
    t.end_fill()
    t.penup()
    t.goto((0 - dir) * 40, 85)
    t.setheading(90)
    t.pendown()
    t.fillcolor('white')
    t.begin_fill()
    t.circle(dir * 17)
    t.end_fill()
def nose():  # 画鼻子
    t.penup()
    t.goto(20, 0)
    t.setheading(90)
    t.pendown()
    t.fillcolor('#a2774d')
    t.begin_fill()
    t.circle(20)
    t.end_fill()
def eye(dir):  # 画耳朵,dir用来设置方向,左右耳对称
    t.penup()
    t.goto((0 - dir) * 30, 20)
    t.setheading(0)
    t.pendown()
    t.fillcolor('black')
    t.begin_fill()
    t.circle(10)
    t.end_fill()
def mouth():  # 画嘴巴
    t.penup()
    t.goto(0, 0)
    t.setheading(-90)
    t.pendown()
    t.forward(50)
    t.setheading(0)
    t.circle(80, 30)
    t.penup()
    t.goto(0, -50)
    t.setheading(180)
    t.pendown()
    t.circle(-80, 30)
hair()
ears(1)
ears(-1)
face()
eye(1)
eye(-1)
mouth()
nose()
t.done()

3 旋转无尽的真心

from turtle import *
from colorsys import *


def curve():
	for i in range(200):
		right(1)
		forward(1)

tracer(10)
delay(0)
speed(0)
pensize(3)
bgcolor("black")

left(140)

cycles_number=2
for _ in range(cycles_number):
	s=1
	for i in range(36):
		color("#C90055",hsv_to_rgb(0.92,s,1))
		begin_fill()
		forward(111.65)
		curve()
		left(120)
		curve()
		forward(111.65)
		end_fill()
		hideturtle()
		right(90)
		s-=0.02
done()

4 520+爱心

<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<title>原生JS制作爱心表白代码 - 站长素材</title>

<link rel="stylesheet" href="css/love.css">

</head>
<body>

<div class="container" onselectstart="return false;" unselectable="on" style="-moz-user-select:none;">

    <div class="body_left">
        <img src="images/biubiubiu.gif" alt="" ondragstart='return false;'>
    </div>

    <div class="body_center love">
        <div class="block">
            <div class="div1"></div>
            <div class="div2"></div>
            <div class="div3"></div>
            <div class="div4"></div>
        </div>
    </div>

</div>

<div class="footer">
    <div class="border">
        <div class="border-top"></div>
        <div class="border-bottom"></div>
    </div>

    <div class="copyright">
        <div id="author">520快乐</div>
    </div>
</div>

<script type="text/javascript" src="js/love.js"></script>

</body>
</html>

 5 鲜艳的玫瑰


import turtle
 
import time
 
t = turtle.Turtle()
t.speed(1)
 
# 设置初始位置
t.penup()
t.left(90)
t.fd(200)
t.pendown()
t.right(90)
 
# 花蕊
t.fillcolor("red")
t.begin_fill()
t.circle(10, 180)
t.circle(25, 110)
t.left(50)
t.circle(60, 45)
t.circle(20, 170)
t.right(24)
t.fd(30)
t.left(10)
t.circle(30, 110)
t.fd(20)
t.left(40)
t.circle(90, 70)
t.circle(30, 150)
t.right(30)
t.fd(15)
t.circle(80, 90)
t.left(15)
t.fd(45)
t.right(165)
t.fd(20)
t.left(155)
t.circle(150, 80)
t.left(50)
t.circle(150, 90)
t.end_fill()
 
# 花瓣1
t.left(150)
t.circle(-90, 70)
t.left(20)
t.circle(75, 105)
t.setheading(60)
t.circle(80, 98)
t.circle(-90, 40)
 
# 花瓣2
t.left(180)
t.circle(90, 40)
t.circle(-80, 98)
t.setheading(-83)
 
# 叶子1
t.fd(30)
t.left(90)
t.fd(25)
t.left(45)
t.fillcolor("green")
t.begin_fill()
t.circle(-80, 90)
t.right(90)
t.circle(-80, 90)
t.end_fill()
t.right(135)
t.fd(60)
t.left(180)
t.fd(85)
t.left(90)
t.fd(80)
 
# 叶子2
t.right(90)
t.right(45)
t.fillcolor("green")
t.begin_fill()
t.circle(80, 90)
t.left(90)
t.circle(80, 90)
t.end_fill()
t.left(135)
t.fd(60)
t.left(180)
t.fd(60)
t.right(90)
t.circle(200, 60)
time.sleep(5)

6 一颗小爱心

from turtle import *
def curvemove():
    for i in range(200):
        right(1)
        forward(1)
setup(600,600,600,600)
hideturtle()
pencolor('black')
fillcolor("red")
pensize(2)
begin_fill()
left(140)
forward(111.65)
curvemove()
left(120)
curvemove()
forward(111.65)
end_fill()
penup()
goto(-27, 85)
pendown()
done()

 7 一个呆萌的皮卡丘

# coding:utf-8
import turtle as t
import time
# 皮卡丘
# 基础设置
t.screensize(800, 600)
t.pensize(2)  # 设置画笔的大小
t.speed(10)  # 设置画笔速度为10
# 画左偏曲线函数
def radian_left(ang, dis, step, n):
    for i in range(n):
        dis += step  # dis增大step
        t.lt(ang)  # 向左转ang度
        t.fd(dis)  # 向前走dis的步长
def radian_right(ang, dis, step, n):
    for i in range(n):
        dis += step
        t.rt(ang)  # 向左转ang度
        t.fd(dis)  # 向前走dis的步长
# 画耳朵
def InitEars():
    t.color("black", "yellow")
    # 左耳朵曲线
    t.pu()  # 提笔
    t.goto(-50, 100)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(110)  # 画笔角度
    t.begin_fill()
    radian_left(1.2, 0.4, 0.1, 40)
    t.setheading(270)  # 画笔角度
    radian_left(1.2, 0.4, 0.1, 40)
    t.setheading(44)  # 画笔角度
    t.forward(32)
    t.end_fill()
    # 右耳朵曲线
    t.pu()  # 提笔
    t.goto(50, 100)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(70)  # 画笔角度
    t.begin_fill()
    radian_right(1.2, 0.4, 0.1, 40)
    t.setheading(270)  # 画笔角度
    radian_right(1.2, 0.4, 0.1, 40)
    t.setheading(136)  # 画笔角度
    t.forward(32)
    t.end_fill()
    # 耳朵黑
    t.begin_fill()
    t.fillcolor("black")
    t.pu()  # 提笔
    t.goto(88, 141)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(35)  # 画笔角度
    radian_right(1.2, 1.6, 0.1, 16)
    t.setheading(270)  # 画笔角度
    radian_right(1.2, 0.4, 0.1, 25)
    t.setheading(132)  # 画笔角度
    t.forward(31)
    t.end_fill()
    t.begin_fill()
    t.fillcolor("black")
    t.pu()  # 提笔
    t.goto(-88, 141)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(145)  # 画笔角度
    radian_left(1.2, 1.6, 0.1, 16)
    t.setheading(270)  # 画笔角度
    radian_left(1.2, 0.4, 0.1, 25)
    t.setheading(48)  # 画笔角度
    t.forward(31)
    t.end_fill()
# 画尾巴
def InitTail():
    # 尾巴
    t.begin_fill()
    t.fillcolor("yellow")
    t.pu()  # 提笔
    t.goto(64, -140)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(10)  # 画笔角度
    t.forward(20)
    t.setheading(90)  # 画笔角度
    t.forward(20)
    t.setheading(10)  # 画笔角度
    t.forward(10)
    t.setheading(80)  # 画笔角度
    t.forward(100)
    t.setheading(35)  # 画笔角度
    t.forward(80)
    t.setheading(260)  # 画笔角度
    t.forward(100)
    t.setheading(205)  # 画笔角度
    t.forward(40)
    t.setheading(260)  # 画笔角度
    t.forward(37)
    t.setheading(205)  # 画笔角度
    t.forward(20)
    t.setheading(260)  # 画笔角度
    t.forward(25)
    t.setheading(175)  # 画笔角度
    t.forward(30)
    t.setheading(100)  # 画笔角度
    t.forward(13)
    t.end_fill()
# 画脚
def InitFoots():
    # 脚
    t.begin_fill()
    t.fillcolor("yellow")
    t.pensize(2)
    t.pu()  # 提笔
    t.goto(-70, -200)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(225)  # 画笔角度
    radian_left(0.5, 1.2, 0, 12)
    radian_left(35, 0.6, 0, 4)
    radian_left(1, 1.2, 0, 18)
    t.setheading(160)  # 画笔角度
    t.forward(13)
    t.end_fill()
    t.begin_fill()
    t.fillcolor("yellow")
    t.pensize(2)
    t.pu()  # 提笔
    t.goto(70, -200)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(315)  # 画笔角度
    radian_right(0.5, 1.2, 0, 12)
    radian_right(35, 0.6, 0, 4)
    radian_right(1, 1.2, 0, 18)
    t.setheading(20)  # 画笔角度
    t.forward(13)
    t.end_fill()
# 画身体
def InitBody():
    # 外形轮廓
    t.begin_fill()
    t.pu()  # 提笔
    t.goto(112, 0)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(90)  # 画笔角度
    t.circle(112, 180)
    t.setheading(250)  # 画笔角度
    radian_left(1.6, 1.3, 0, 50)
    radian_left(0.8, 1.5, 0, 25)
    t.setheading(255)  # 画笔角度
    radian_left(0.4, 1.6, 0.2, 27)
    radian_left(2.8, 1, 0, 45)
    radian_right(0.9, 1.4, 0, 31)
    t.setheading(355)  # 画笔角度
    radian_right(0.9, 1.4, 0, 31)
    radian_left(2.8, 1, 0, 45)
    radian_left(0.4, 7.2, -0.2, 27)
    t.setheading(10)  # 画笔角度
    radian_left(0.8, 1.5, 0, 25)
    radian_left(1.6, 1.3, 0, 50)
    t.end_fill()
def InitEyes():
    # 左眼睛
    t.begin_fill()
    t.fillcolor("black")
    t.pu()  # 提笔
    t.goto(-46, 10)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(90)  # 画笔角度
    t.circle(5, 360)
    t.end_fill()
    # 右眼睛
    t.begin_fill()
    t.fillcolor("black")
    t.pu()  # 提笔
    t.goto(46, 10)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(-90)  # 画笔角度
    t.circle(5, 360)
    t.end_fill()
# 画脸
def InitFace():
    # 脸蛋
    t.begin_fill()
    t.fillcolor("red")
    t.pu()  # 提笔
    t.goto(-63, -10)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(90)  # 画笔角度
    t.circle(10, 360)
    t.end_fill()
    t.begin_fill()
    t.fillcolor("red")
    t.pu()  # 提笔
    t.goto(63, -10)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(-90)  # 画笔角度
    t.circle(10, 360)
    t.end_fill()
    # 嘴巴
    t.pensize(2.2)
    t.pu()  # 提笔
    t.goto(0, 0)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(235)  # 画笔角度
    radian_right(5, 0.8, 0, 30)
    t.pu()  # 提笔
    t.goto(0, 0)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(305)  # 画笔角度
    radian_left(5, 0.8, 0, 30)
# 画手
def InitHands():
    # 左手
    t.pensize(2)
    t.pu()  # 提笔
    t.goto(-46, -100)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(285)  # 画笔角度
    radian_right(0.4, 1.2, 0, 26)
    radian_right(5, 0.35, 0, 26)
    radian_right(0.3, 1.2, 0, 15)
    # 右手
    t.pu()  # 提笔
    t.goto(46, -100)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(255)  # 画笔角度
    radian_left(0.4, 1.2, 0, 26)
    radian_left(5, 0.35, 0, 26)
    radian_left(0.3, 1.2, 0, 15)
def CloseEyes():
    # 左眼睛
    t.pu()  # 提笔
    t.goto(-46, 12)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(180)  # 画笔角度
    t.forward(10)
    # 右眼睛
    t.pu()  # 提笔
    t.goto(46, 12)  # 笔头初始位置
    t.pd()  # 下笔
    t.setheading(0)  # 画笔角度
    t.forward(10)
# 初始化
def Init():
    InitEars()
    InitTail()
    InitFoots()
    InitBody()
    InitFace()
    InitHands()
    InitEyes()
# 眨眼睛
def Upgarde():
    InitEars()
    InitTail()
    InitFoots()
    InitBody()
    InitFace()
    InitHands()
    CloseEyes()
def Upgarde_Init():
    InitEars()
    InitTail()
    InitFoots()
    InitBody()
    InitFace()
    InitHands()
    InitEyes()
def main():
    Init()
    t.tracer(False)
    # 眨眼睛动画
    for i in range(30):
        if i % 2 == 0:
            t.reset()
            t.hideturtle()
            Upgarde()
            t.update()
            time.sleep(0.3)
        else:
            t.reset()
            t.hideturtle()
            Upgarde_Init()
            t.update()
            time.sleep(1)
main()
# 结束画笔
t.done()

 8 小猪佩奇


import turtle
from turtle import *
turtle.title('小猪佩奇')

def nose(x,y):
    """画鼻子"""
    pensize(5)
    pencolor((255, 155, 192))
    penup()
    # 将海龟移动到指定的坐标
    goto(x,y)
    pendown()
    # 设置海龟的方向(0-东、90-北、180-西、270-南)
    setheading(-30)
    begin_fill()
    fillcolor(255, 192, 203)
    a = 0.4
    for i in range(120):
        if 0 <= i < 30 or 60 <= i <90:
            a = a + 0.08
            # 向左转3度
            left(3)
            # 向前走
            forward(a)
        else:
            a = a - 0.08
            left(3)
            forward(a)
    end_fill()
    penup()
    setheading(90)
    forward(25)
    setheading(0)
    forward(10)
    pendown()
    """设置画笔的颜色(红, 绿, 蓝)"""
    pencolor(255, 155, 192)
    setheading(10)
    begin_fill()
    circle(5)
    color(160, 82, 45)
    end_fill()
    penup()
    setheading(0)
    forward(20)
    pendown()
    pencolor(255, 155, 192)
    setheading(10)
    begin_fill()
    circle(5)
    color(160, 82, 45)
    end_fill()


def head(x, y):
    """画头"""
    color((255, 155, 192), "pink")
    penup()
    goto(x,y)
    setheading(0)
    pendown()
    begin_fill()
    setheading(180)
    circle(300, -30)
    circle(100, -60)
    circle(80, -100)
    circle(150, -20)
    circle(60, -95)
    setheading(161)
    circle(-300, 15)
    penup()
    goto(-100, 100)
    pendown()
    setheading(-30)
    a = 0.4
    for i in range(60):
        if 0<= i < 30 or 60 <= i < 90:
            a = a + 0.08
            lt(3) #向左转3度
            fd(a) #向前走a的步长
        else:
            a = a - 0.08
            lt(3)
            fd(a)
    end_fill()


def ears(x,y):
    """画耳朵"""
    color((255, 155, 192), "pink")
    penup()
    goto(x, y)
    pendown()
    begin_fill()
    setheading(100)
    circle(-50, 50)
    circle(-10, 120)
    circle(-50, 54)
    end_fill()
    penup()
    setheading(90)
    forward(-12)
    setheading(0)
    forward(30)
    pendown()
    begin_fill()
    setheading(90)
    circle(-50, 50)
    circle(-10, 120)
    circle(-50, 56)
    end_fill()


def eyes(x,y):
    """画眼睛"""
    color((255, 155, 192), "white")
    penup()
    setheading(90)
    forward(-20)
    setheading(0)
    forward(-95)
    pendown()
    begin_fill()
    circle(15)
    end_fill()
    color("black")
    penup()
    setheading(90)
    forward(12)
    setheading(0)
    forward(-3)
    pendown()
    begin_fill()
    circle(3)
    end_fill()
    color((255, 155, 192), "white")
    penup()
    seth(90)
    forward(-25)
    seth(0)
    forward(40)
    pendown()
    begin_fill()
    circle(15)
    end_fill()
    color("black")
    penup()
    setheading(90)
    forward(12)
    setheading(0)
    forward(-3)
    pendown()
    begin_fill()
    circle(3)
    end_fill()


def cheek(x,y):
    """画脸颊"""
    color((255, 155, 192))
    penup()
    goto(x,y)
    pendown()
    setheading(0)
    begin_fill()
    circle(30)
    end_fill()


def mouth(x,y):
    """画嘴巴"""
    color(239, 69, 19)
    penup()
    goto(x, y)
    pendown()
    setheading(-80)
    circle(30, 40)
    circle(40, 80)

def body(x,y):
    '''画身体'''
    penup()
    goto(x,y)
    pencolor('red')
    fillcolor(250,106,106)
    pendown()
    begin_fill()
    setheading(-66)
    circle(-450,17)
    setheading(180)
    forward(185)
    setheading(85)
    circle(-450,17)
    end_fill()
    '''右手'''
    penup()
    goto(110,-45)
    pendown()
    pensize(8)
    pencolor(255, 192, 203)
    setheading(30)
    circle(-400,10)
    penup()
    goto(167,-5)
    pendown()
    setheading(-120)
    forward(20)
    left(100)
    forward(20)
    '''左手'''
    penup()
    goto(-25,-45)
    pendown()
    pencolor(255, 192, 203)
    setheading(150)
    circle(400,10)
    penup()
    goto(-78,-6)
    pendown()
    setheading(-60)
    forward(20)
    right(100)
    forward(20)

def feet1(x,y):
    pensize(7)
    pencolor(255, 192, 203)
    penup()
    goto(x,y)
    setheading(-90)
    pendown()
    forward(10)
    penup()
    goto(x-12,y-10)
    pendown()
    pencolor(238,201,0)
    fillcolor(238,230,132)
    begin_fill()
    setheading(0)
    forward(24)
    right(90)
    forward(36)
    right(90)
    forward(40)
    circle(-10,180)
    forward(16)
    left(90)
    forward(12)
    end_fill()

def feet2(x,y):
    pensize(7)
    pencolor(255, 192, 203)
    penup()
    goto(x,y)
    setheading(-90)
    pendown()
    forward(10)
    penup()
    goto(x-12,y-10)
    pendown()
    pencolor(238,201,0)
    fillcolor(238,230,132)
    begin_fill()
    setheading(0)
    forward(24)
    right(90)
    forward(36)
    right(90)
    forward(40)
    circle(-10,180)
    forward(16)
    left(90)
    forward(12)
    end_fill()

def tail(x,y):
    pensize(8)
    penup()
    goto(x,y)
    pendown()
    pencolor(255, 192, 203)
    setheading(-5)
    circle(30,100)
    circle(10,180)
    circle(20,150)

def backg(x):
    penup()
    goto(-420,x)
    setheading(0)
    fillcolor(50,205,50)
    begin_fill()
    forward(840)
    right(90)
    forward(300)
    right(90)
    forward(840)
    right(90)
    forward(300)
    end_fill()
    setheading(0)
    fillcolor(0,191,255)
    begin_fill()
    forward(840)
    left(90)
    forward(600)
    left(90)
    forward(840)
    left(90)
    forward(600)
    end_fill()

def cloude1(x, y):
    """画云"""
    penup()
    goto(x,y)
    setheading(90)
    fillcolor(255,255,255)
    begin_fill()
    a = 0.4
    for i in range(120):
        if 0 <= i < 30 or 60 <= i <90:
            a = a + 0.14
            # 向左转3度
            left(3)
            # 向前走
            forward(a)
        else:
            a = a - 0.15
            left(3)
            forward(a)
    end_fill()

def cloude2(x, y):
    """画云"""
    penup()
    goto(x,y)
    setheading(90)
    fillcolor(255,255,255)
    begin_fill()
    a = 0.4
    for i in range(120):
        if 0 <= i < 30 or 60 <= i <90:
            a = a + 0.15
            # 向左转3度
            left(3)
            # 向前走
            forward(a)
        else:
            a = a - 0.13
            left(3)
            forward(a)
    end_fill()

def setting():
    """设置参数"""
    pensize(5)
    # 隐藏海龟
    hideturtle()
    colormode(255)
    color((255, 155, 192), "pink")
    setup(840, 700)
    speed(10)


def main():
    """主函数"""
    
    setting() 
    backg(0)
    body(105,-20)
    nose(-100, 100)
    head(-69, 167)
    ears(0, 160)
    eyes(0, 140)
    cheek(80, 10)
    mouth(-20, 30)
    feet1(10,-150)
    feet2(90,-150)
    tail(130,-110)
    cloude1(-200,200)
    cloude2(300,300)
    done()


if __name__ == '__main__':
    main()



9 放烟花

<!doctype html>
<html>
<head>
<meta charset="utf-8">
<title>逼真的烟花</title>
<script src="js/jquery.min.js"></script>
<style>
body {
  margin: 0;
  padding: 0;
  background: #000000;
  overflow: hidden;
}
</style>
</head>
<body>
<canvas id="canvas"></canvas>
<!-- best viewed in chrome -->
 
<script>
// fun options!
const PARTICLES_PER_FIREWORK = 150; // 100 - 400 or try 1000
const FIREWORK_CHANCE = 0.02; // percentage, set to 0 and click instead
const BASE_PARTICLE_SPEED = 0.6; // between 0-4, controls the size of the overall fireworks
const FIREWORK_LIFESPAN = 600; // ms
const PARTICLE_INITIAL_SPEED = 4.5; // 2-8
 
// not so fun options =\
const GRAVITY = 9.8;
 
 
const canvas = document.getElementById('canvas');
const ctx = canvas.getContext('2d');
 
let particles = [];
let disableAutoFireworks = false;
let resetDisable = 0;
 
let loop = () => {
  
  if (!disableAutoFireworks && Math.random() < FIREWORK_CHANCE) {
    createFirework();
  }
  
  ctx.clearRect(0, 0, canvas.width, canvas.height);
  
  particles.forEach((particle, i) => {
    particle.animate();
    particle.render();
    if (particle.y > canvas.height 
        || particle.x < 0 
        || particle.x > canvas.width
        || particle.alpha <= 0
       ) {
      particles.splice(i, 1);
    }
  });
  
  requestAnimationFrame(loop);
  
};
 
let createFirework = (
    x = Math.random() * canvas.width,
    y = Math.random() * canvas.height
  ) => {
  
  let speed = (Math.random() * 2) + BASE_PARTICLE_SPEED;
  let maxSpeed = speed;
 
  let red = ~~(Math.random() * 255);
  let green = ~~(Math.random() * 255);
  let blue = ~~(Math.random() * 255);
  
  // use brighter colours
  red = (red < 150 ? red + 150 : red);
  green = (green < 150 ? green + 150 : green);
  blue = (blue < 150 ? blue + 150 : blue);
 
  // inner firework
  for (let i = 0; i < PARTICLES_PER_FIREWORK; i++) {
    let particle = new Particle(x, y, red, green, blue, speed);
    particles.push(particle);
 
    maxSpeed = (speed > maxSpeed ? speed : maxSpeed);
  }
 
  // outer edge particles to make the firework appear more full
  for (let i = 0; i < 40; i++) {
    let particle = new Particle(x, y, red, green, blue, maxSpeed, true);
    particles.push(particle);
  }
  
};
 
class Particle {
  
  constructor(
    x = 0,
    y = 0, 
    red = ~~(Math.random() * 255), 
    green = ~~(Math.random() * 255), 
    blue = ~~(Math.random() * 255), 
    speed, 
    isFixedSpeed
  ) {
    
    this.x = x;
    this.y = y;
    this.red = red;
    this.green = green;
    this.blue = blue;
    this.alpha = 0.05;
    this.radius = 1 + Math.random();
    this.angle = Math.random() * 360;
    this.speed = (Math.random() * speed) + 0.1;
    this.velocityX = Math.cos(this.angle) * this.speed;
    this.velocityY = Math.sin(this.angle) * this.speed;
    this.startTime = (new Date()).getTime();
    this.duration = Math.random() * 300 + FIREWORK_LIFESPAN;
    this.currentDiration = 0;
    this.dampening = 30; // slowing factor at the end
    
    this.colour = this.getColour();
    
    if (isFixedSpeed) {
      this.speed = speed;
      this.velocityY = Math.sin(this.angle) * this.speed;
      this.velocityX = Math.cos(this.angle) * this.speed;
    }
    
    this.initialVelocityX = this.velocityX;
    this.initialVelocityY = this.velocityY;
 
  }
  
  animate() {
    
    this.currentDuration = (new Date()).getTime() - this.startTime;
    
    // initial speed kick
    if (this.currentDuration <= 200) {
      
      this.x += this.initialVelocityX * PARTICLE_INITIAL_SPEED;
      this.y += this.initialVelocityY * PARTICLE_INITIAL_SPEED;
      this.alpha += 0.01;
 
      this.colour = this.getColour(240, 240, 240, 0.9);
      
    } else {
      
      // normal expansion
      this.x += this.velocityX;
      this.y += this.velocityY;
      this.colour = this.getColour(this.red, this.green, this.blue, 0.4 + (Math.random() * 0.3));
      
    }
    
    this.velocityY += GRAVITY / 1000;
    
    // slow down particles at the end
    if (this.currentDuration >= this.duration) {
      this.velocityX -= this.velocityX / this.dampening; 
      this.velocityY -= this.velocityY / this.dampening;
    }
    
    if (this.currentDuration >= this.duration + this.duration / 1.1) {
      
      // fade out at the end
      this.alpha -= 0.02;
      this.colour = this.getColour();
      
    } else {
      
      // fade in during expansion
      if (this.alpha < 1) {
        this.alpha += 0.03;
      }
      
    }
  }
  
  render() {
    
    ctx.beginPath();
    ctx.arc(this.x, this.y, this.radius, 0, Math.PI * 2, true);
    ctx.lineWidth = this.lineWidth;
    ctx.fillStyle = this.colour;
    ctx.shadowBlur = 8;
    ctx.shadowColor = this.getColour(this.red + 150, this.green + 150, this.blue + 150, 1);
    ctx.fill();
    
  }
  
  getColour(red, green, blue, alpha) {
    
    return `rgba(${red || this.red}, ${green || this.green}, ${blue || this.blue}, ${alpha || this.alpha})`;
    
  }
  
}
 
let updateCanvasSize = () => {
  canvas.width = window.innerWidth;
  canvas.height = window.innerHeight;
};
 
 
// run it!
 
updateCanvasSize();
$(window).resize(updateCanvasSize);
$(canvas).on('click', (e) => {
  
  createFirework(e.clientX, e.clientY);
  
  // stop fireworks when clicked, re-enable after short time
  disableAutoFireworks = true;
  clearTimeout(resetDisable);
  resetDisable = setTimeout(() => {
    disableAutoFireworks = false;
  }, 5000);
  
});
 
loop();
 
</script>
 
</body>
</html>

 10 小呆呆小黄人

import turtle as t
# t = turtle.Turtle()
wn = t.Screen()
t.colormode(255)
t.hideturtle()
t.speed(0)
t.penup()
t.pensize(4)
t.goto(100,0)
t.pendown()
t.left(90)
t.color((0,0,0),(255,255,0))
#身体绘制上色
t.begin_fill()
t.forward(200)
t.circle(100,180)
t.forward(200)
t.circle(100,180)
t.end_fill()
#右眼睛绘制上色
t.pensize(12)
t.penup()
t.goto(-100,200)
t.pendown()
t.right(100)
t.circle(500,23)
t.pensize(3)
t.penup()
t.goto(0,200)
t.pendown()
t.seth(270)
t.color("black","white")
t.begin_fill()
t.circle(30)
t.end_fill()
t.penup()
t.goto(15,200)
t.pendown()
t.color("black","black")
t.begin_fill()
t.circle(15)
t.end_fill()
t.penup()
t.goto(35,205)
t.color("black","white")
t.begin_fill()
t.circle(5)
t.end_fill()
#左眼睛绘制上色
t.pensize(3)
t.penup()
t.goto(0,200)
t.pendown()
t.seth(90)
t.color("black","white")
t.begin_fill()
t.circle(30)
t.end_fill()
t.penup()
t.goto(-15,200)
t.pendown()
t.color("black","black")
t.begin_fill()
t.circle(15)
t.end_fill()
t.penup()
t.goto(-35,205)
t.color("black","white")
t.begin_fill()
t.circle(5)
t.end_fill()
#嘴绘制上色
t.penup()
t.goto(-20,100)
t.pendown()
t.seth(270)
t.color("black","white")
t.begin_fill()
t.circle(20,180)
t.left(90)
t.forward(40)
t.end_fill()
#裤子绘制上色
t.penup()
t.goto(-100,0)
t.pendown()
t.seth(0)
t.color("black","blue")
t.begin_fill()
t.forward(20)
t.left(90)
t.forward(40)
t.right(90)
t.forward(160)
t.right(90)
t.forward(40)
t.left(90)
t.forward(20)
t.seth(270)
t.penup()
t.goto(-100,0)
t.circle(100,180)
t.end_fill()
#左裤子腰带
t.penup()
t.goto(-70,20)
t.pendown()
t.color("black","blue")
t.begin_fill()
t.seth(45)
t.forward(15)
t.left(90)
t.forward(60)
t.seth(270)
t.forward(15)
t.left(40)
t.forward(50)
t.end_fill()
t.left(180)
t.goto(-70,30)
t.dot()
#右裤腰带
t.penup()
t.goto(70,20)
t.pendown()
t.color("black","blue")
t.begin_fill()
t.seth(135)
t.forward(15)
t.right(90)
t.forward(60)
t.seth(270)
t.forward(15)
t.right(40)
t.forward(50)
t.end_fill()
t.left(180)
t.goto(70,30)
t.dot()
#脚
t.penup()
t.goto(4,-100)
t.pendown()
t.seth(270)
t.color("black","black")
t.begin_fill()
t.forward(30)
t.left(90)
t.forward(40)
t.seth(20)
t.circle(10,180)
t.circle(400,2)
t.seth(90)
t.forward(20)
t.goto(4,-100)
t.end_fill()
t.penup()
t.goto(-4,-100)
t.pendown()
t.seth(270)
t.color("black","black")
t.begin_fill()
t.forward(30)
t.right(90)
t.forward(40)
t.seth(20)
t.circle(10,-225)
t.circle(400,-3)
t.seth(90)
t.forward(21)
t.goto(-4,-100)
t.end_fill()
#左手
t.penup()
t.goto(-100,50)
t.pendown()
t.seth(225)
t.color("black","yellow")
t.begin_fill()
t.forward(40)
t.left(90)
t.forward(35)
t.seth(90)
t.forward(50)
t.end_fill()
#右手
t.penup()
t.goto(100,50)
t.pendown()
t.seth(315)
t.color("black","yellow")
t.begin_fill()
t.forward(40)
t.right(90)
t.forward(36)
t.seth(90)
t.forward(50)
t.end_fill()
#
t.penup()
t.goto(0,-100)
t.pendown()
t.forward(30)
#
t.penup()
t.goto(0,-20)
t.pendown()
t.color("yellow")
t.begin_fill()
t.seth(45)
t.forward(20)
t.circle(10,180)
t.right(90)
t.circle(10,180)
t.forward(20)
t.end_fill()
#
t.penup()
t.color("black")
t.goto(-100,-20)
t.pendown()
t.circle(30,90)
t.penup()
t.goto(100,-20)
t.pendown()
t.circle(30,-90)
#头顶
t.penup()
t.goto(2,300)
t.pendown()
t.begin_fill()
t.seth(135)
t.circle(100,40)
t.end_fill()
t.penup()
t.goto(2,300)
t.pendown()
t.begin_fill()
t.seth(45)
t.circle(100,40)
t.exitonclick()

11 十里桃花飘落

<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<title></title>
</head>
 
<body>
</body>
 
<script>
            var stop, staticx;
			var img = new Image();
			img.src = 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";
 
			function Sakura(x, y, s, r, fn) {
				this.x = x;
				this.y = y;
				this.s = s;
				this.r = r;
				this.fn = fn;
			}
 
			Sakura.prototype.draw = function(cxt) {
				cxt.save();
				var xc = 40 * this.s / 4;
				cxt.translate(this.x, this.y);
				cxt.rotate(this.r);
				cxt.drawImage(img, 0, 0, 40 * this.s, 40 * this.s)
				cxt.restore();
			}
 
			Sakura.prototype.update = function() {
				this.x = this.fn.x(this.x, this.y);
				this.y = this.fn.y(this.y, this.y);
				this.r = this.fn.r(this.r);
				if(this.x > window.innerWidth ||
					this.x < 0 ||
					this.y > window.innerHeight ||
					this.y < 0
				) {
					this.r = getRandom('fnr');
					if(Math.random() > 0.4) {
						this.x = getRandom('x');
						this.y = 0;
						this.s = getRandom('s');
						this.r = getRandom('r');
					} else {
						this.x = window.innerWidth;
						this.y = getRandom('y');
						this.s = getRandom('s');
						this.r = getRandom('r');
					}
				}
			}
 
			SakuraList = function() {
				this.list = [];
			}
			SakuraList.prototype.push = function(sakura) {
				this.list.push(sakura);
			}
			SakuraList.prototype.update = function() {
				for(var i = 0, len = this.list.length; i < len; i++) {
					this.list[i].update();
				}
			}
			SakuraList.prototype.draw = function(cxt) {
				for(var i = 0, len = this.list.length; i < len; i++) {
					this.list[i].draw(cxt);
				}
			}
			SakuraList.prototype.get = function(i) {
				return this.list[i];
			}
			SakuraList.prototype.size = function() {
				return this.list.length;
			}
 
			function getRandom(option) {
				var ret, random;
				switch(option) {
					case 'x':
						ret = Math.random() * window.innerWidth;
						break;
					case 'y':
						ret = Math.random() * window.innerHeight;
						break;
					case 's':
						ret = Math.random();
						break;
					case 'r':
						ret = Math.random() * 6;
						break;
					case 'fnx':
						random = -0.5 + Math.random() * 1;
						ret = function(x, y) {
							return x + 0.5 * random - 1.7;
						};
						break;
					case 'fny':
						random = 1.5 + Math.random() * 0.7
						ret = function(x, y) {
							return y + random;
						};
						break;
					case 'fnr':
						random = Math.random() * 0.03;
						ret = function(r) {
							return r + random;
						};
						break;
				}
				return ret;
			}
 
			function startSakura() {
 
				requestAnimationFrame = window.requestAnimationFrame ||
					window.mozRequestAnimationFrame ||
					window.webkitRequestAnimationFrame ||
					window.msRequestAnimationFrame ||
					window.oRequestAnimationFrame;
				var canvas = document.createElement('canvas'),
					cxt;
				staticx = true;
				canvas.height = window.innerHeight;
				canvas.width = window.innerWidth;
				canvas.setAttribute('style', 'position: fixed;left: 0;top: 0;pointer-events: none;');
				canvas.setAttribute('id', 'canvas_sakura');
				document.getElementsByTagName('body')[0].appendChild(canvas);
				cxt = canvas.getContext('2d');
				var sakuraList = new SakuraList();
				for(var i = 0; i < 50; i++) {
					var sakura, randomX, randomY, randomS, randomR, randomFnx, randomFny;
					randomX = getRandom('x');
					randomY = getRandom('y');
					randomR = getRandom('r');
					randomS = getRandom('s');
					randomFnx = getRandom('fnx');
					randomFny = getRandom('fny');
					randomFnR = getRandom('fnr');
					sakura = new Sakura(randomX, randomY, randomS, randomR, {
						x: randomFnx,
						y: randomFny,
						r: randomFnR
					});
					sakura.draw(cxt);
					sakuraList.push(sakura);
				}
				stop = requestAnimationFrame(function() {
					cxt.clearRect(0, 0, canvas.width, canvas.height);
					sakuraList.update();
					sakuraList.draw(cxt);
					stop = requestAnimationFrame(arguments.callee);
				})
			}
 
			window.onresize = function() {
				var canvasSnow = document.getElementById('canvas_snow');
				canvasSnow.width = window.innerWidth;
				canvasSnow.height = window.innerHeight;
			}
 
			img.onload = function() {
				startSakura();
			}
 
			function stopp() {
				if(staticx) {
					var child = document.getElementById("canvas_sakura");
					child.parentNode.removeChild(child);
					window.cancelAnimationFrame(stop);
					staticx = false;
				} else {
					startSakura();
				}
			}
</script>
</html>

 12 炸死小坏蛋


import time
from pynput import mouse, keyboard

m_keyboard = keyboard.Controller()           #创建一个键盘

qty = int(input("轰炸次数:"))
content = input("轰炸内容:")
time_Span = int(input("开始轰炸时间(s):"))
frequency = float(input("轰炸频率(0.1-0.5):"))
print("选择轰炸区域", time_Span, "秒后开始轰炸")

time.sleep(time_Span)

for i in range(qty):
    m_keyboard.type(content)                 #打字
    m_keyboard.press(keyboard.Key.enter)     #按下enter
    m_keyboard.release(keyboard.Key.enter)   #松开
    time.sleep(frequency)                          #间隔0.1秒

13 哆啦A梦

import turtle as t
t.title('哆啦A梦')
# t.speed(5)
t.pensize(8)
t.hideturtle()
t.screensize(500, 500, bg='white')

"""猫脸"""
t.fillcolor('#00A1E8')
t.begin_fill()
t.circle(120)
t.end_fill()
t.pensize(3)
t.fillcolor('white')
t.begin_fill()
t.circle(100)
t.end_fill()
t.pu()
t.home()
t.goto(0, 134)
t.pd()
t.pensize(4)
t.fillcolor("#EA0014")
t.begin_fill()
t.circle(18)
t.end_fill()
t.pu()
t.goto(7, 155)
t.pensize(2)
t.color('white', 'white')
t.pd()
t.begin_fill()
t.circle(4)
t.end_fill()
t.pu()
t.goto(-30, 160)
t.pensize(4)
t.pd()
t.color('black', 'white')
t.begin_fill()
a = 0.4
for i in range(120):
    if 0 <= i < 30 or 60 <= i < 90:
        a = a + 0.08
        t.lt(3)  # 向左转3度
        t.fd(a)  # 向前走a的步长
    else:
        a = a - 0.08
        t.lt(3)
        t.fd(a)
t.end_fill()
t.pu()
t.goto(30, 160)
t.pensize(4)
t.pd()
t.color('black', 'white')
t.begin_fill()
for i in range(120):
    if 0 <= i < 30 or 60 <= i < 90:
        a = a + 0.08
        t.lt(3)  # 向左转3度
        t.fd(a)  # 向前走a的步长
    else:
        a = a - 0.08
        t.lt(3)
        t.fd(a)
t.end_fill()
t.pu()
t.goto(-38, 190)
t.pensize(8)
t.pd()
t.right(-30)
t.forward(15)
t.right(70)
t.forward(15)
t.pu()
t.goto(15, 185)
t.pensize(4)
t.pd()
t.color('black', 'black')
t.begin_fill()
t.circle(13)
t.end_fill()
t.pu()
t.goto(13, 190)
t.pensize(2)
t.pd()
t.color('white', 'white')
t.begin_fill()
t.circle(5)
t.end_fill()
t.pu()
t.home()
t.goto(0, 134)
t.pensize(4)
t.pencolor('black')
t.pd()
t.right(90)
t.forward(40)
t.pu()
t.home()
t.goto(0, 124)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(10)
t.forward(80)
t.pu()
t.home()
t.goto(0, 114)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(6)
t.forward(80)
t.pu()
t.home()
t.goto(0, 104)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(0)
t.forward(80)
"""左边的胡子"""
t.pu()
t.home()
t.goto(0, 124)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(170)
t.forward(80)
t.pu()
t.home()
t.goto(0, 114)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(174)
t.forward(80)
t.pu()
t.home()
t.goto(0, 104)
t.pensize(3)
t.pencolor('black')
t.pd()
t.left(180)
t.forward(80)
t.pu()
t.goto(-70, 70)
t.pd()
t.color('black', 'red')
t.pensize(6)
t.seth(-60)
t.begin_fill()
t.circle(80, 40)
t.circle(80, 80)
t.end_fill()
t.pu()
t.home()
t.goto(-80, 70)
t.pd()
t.forward(160)
t.pu()
t.home()
t.goto(-50, 50)
t.pd()
t.pensize(1)
t.fillcolor("#eb6e1a")
t.seth(40)
t.begin_fill()
t.circle(-40, 40)
t.circle(-40, 40)
t.seth(40)
t.circle(-40, 40)
t.circle(-40, 40)
t.seth(220)
t.circle(-80, 40)
t.circle(-80, 40)
t.end_fill()
# 领带
t.pu()
t.goto(-70, 12)
t.pensize(14)
t.pencolor('red')
t.pd()
t.seth(-20)
t.circle(200, 30)
t.circle(200, 10)
"""铃铛"""
t.pu()
t.goto(0, -46)
t.pd()
t.pensize(3)
t.color("black", '#f8d102')
t.begin_fill()
t.circle(25)
t.end_fill()
t.pu()
t.goto(-5, -40)
t.pd()
t.pensize(2)
t.color("black", '#79675d')
t.begin_fill()
t.circle(5)
t.end_fill()
t.pensize(3)
t.right(115)
t.forward(7)
t.mainloop()

 14 一个微信表情包

import turtle
# 画指定的任意圆弧
def arc(sa, ea, x, y, r):  # start angle,end angle,circle center,radius
    turtle.penup()
    turtle.goto(x, y)
    turtle.setheading(0)
    turtle.left(sa)
    turtle.fd(r)
    turtle.pendown()
    turtle.left(90)
    turtle.circle(r, (ea - sa))
    return turtle.position()
turtle.hideturtle()
# 画脸
turtle.speed(5)
turtle.setup(900, 600, 200, 200)
turtle.pensize(5)
turtle.right(90)
turtle.penup()
turtle.fd(100)
turtle.left(90)
turtle.pendown()
turtle.begin_fill()
turtle.pencolor("#B26A0F")  # head side color
turtle.circle(150)
turtle.fillcolor("#F9E549")  # face color
turtle.end_fill()
# 画嘴
turtle.penup()
turtle.goto(77, 20)
turtle.pencolor("#744702")
turtle.goto(0, 50)
turtle.right(30)
turtle.fd(110)
turtle.right(90)
turtle.pendown()
turtle.begin_fill()
turtle.fillcolor("#925902")  # mouth color
turtle.circle(-97, 160)
turtle.goto(92, -3)
turtle.end_fill()
turtle.penup()
turtle.goto(77, -25)
# 画牙齿
turtle.pencolor("white")
turtle.begin_fill()
turtle.fillcolor("white")
turtle.goto(77, -24)
turtle.goto(-81, 29)
turtle.goto(-70, 43)
turtle.goto(77, -8)
turtle.end_fill()
turtle.penup()
turtle.goto(0, -100)
turtle.setheading(0)
turtle.pendown()
# 画左边眼泪
turtle.left(90)
turtle.penup()
turtle.fd(150)
turtle.right(60)
turtle.fd(-150)
turtle.pendown()
turtle.left(20)
turtle.pencolor("#155F84")  # tear side color
turtle.fd(150)
turtle.right(180)
position1 = turtle.position()
turtle.begin_fill()
turtle.fillcolor("#7EB0C8")  # tear color
turtle.fd(150)
turtle.right(20)
turtle.left(270)
turtle.circle(-150, 18)
turtle.right(52)
turtle.fd(110)
position2 = turtle.position()
turtle.goto(-33, 90)
turtle.end_fill()
# 画右边眼泪
turtle.penup()
turtle.goto(0, 0)
turtle.setheading(0)
turtle.left(90)
turtle.fd(50)
turtle.right(150)
turtle.fd(150)
turtle.left(150)
turtle.fd(100)
turtle.pendown()
turtle.begin_fill()
turtle.fd(-100)
turtle.fillcolor("#7EB0C8")  # tear color
turtle.right(60)
turtle.circle(150, 15)
turtle.left(45)
turtle.fd(66)
turtle.goto(77, 20)
turtle.end_fill()
# 画眼睛
turtle.penup()
turtle.pencolor("#6C4E00")  # eye color
turtle.goto(-65, 75)
turtle.setheading(0)
turtle.left(27)
turtle.fd(38)
turtle.pendown()
turtle.begin_fill()
turtle.fillcolor("#6C4E00")  # eye color
turtle.left(90)
turtle.circle(38, 86)
turtle.goto(position2[0], position2[1])
turtle.goto(position1[0], position1[1])
turtle.end_fill()
# 画手
turtle.pencolor("#D57E18")  # hand side color
turtle.begin_fill()
turtle.fillcolor("#EFBD3D")  # hand color
# 第一个手指
arc(-110, 10, 110, -40, 30)
turtle.circle(300, 35)
turtle.circle(13, 120)
turtle.setheading(-50)
turtle.fd(20)
turtle.setheading(130)
# 第二个手指
turtle.circle(200, 15)
turtle.circle(12, 180)
turtle.fd(40)
turtle.setheading(137)
# 第三个手指
turtle.circle(200, 16)
turtle.circle(12, 160)
turtle.setheading(-35)
turtle.fd(45)
turtle.setheading(140)
# 第四个手指
turtle.circle(200, 13)
turtle.circle(11, 160)
turtle.setheading(-35)
turtle.fd(40)
turtle.setheading(145)
# 第五个手指
turtle.circle(200, 9)
turtle.circle(10, 180)
turtle.setheading(-31)
turtle.fd(50)
# 画最后手腕的部分
turtle.setheading(-45)
turtle.pensize(7)
turtle.right(5)
turtle.circle(180, 35)
turtle.end_fill()
turtle.begin_fill()
turtle.setheading(-77)
turtle.pensize(5)
turtle.fd(50)
turtle.left(-270)
turtle.fd(7)
turtle.pencolor("#EFBD3D")
turtle.circle(30, 180)
turtle.end_fill()


turtle.done()

 15 秀死他

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现代这种“探索、征服”的心态,从世界地图的演变可以看得一目了然。早在历史进到现代之前,许多文化就已经有了自己的世界地图。当然,当时并没有人真正知道全世界是什么样子,在亚非大陆上的人对美洲一无所知,美洲文化也不知道亚非大陆上的情形。但碰到不熟悉的地区,地图上不是一笔未提,就是画上了想象出来的怪物和奇景。这些地图上并没有空白的空间,让人觉得全世界就在自己的掌握之中。

在15、16世纪,欧洲人的世界地图开始出现大片空白。从这点可以看出科学心态的发展,以及欧洲帝国主义的动机。地图上的空白可以说是在心理及思想上的一大突破,清楚表明欧洲人愿意承认自己对于一大部分的世界还一无所知。

 

图1 1459年欧洲人的世界地图。可以看到地图上似乎巨细靡遗,就算是当时欧洲人根

                                  本一无所知的南非地区,都有密密麻麻的信息。

1492年,哥伦布从西班牙出发向西航行,希望能找到一条前往东亚的新航线。哥伦布当时相信的仍然是旧的世界地图,以为全世界在地图上一览无遗。哥伦布从旧地图推算,日本应该位于西班牙以西大约7000公里远。但事实上,从西班牙到东亚的距离要超过两万公里,而且中间还隔着个他不知道的美洲大陆。1492年10月12日大约凌晨2点,哥伦布一行人与这片未知大陆有了第一次接触。皮塔号(Pinta)的瞭望手胡安·罗德里格斯·贝尔梅霍(Juan Rodriguez Berme jo)从桅杆上看到了现在的巴哈马群岛,高呼着:“有陆地!有陆地!”

哥伦布当时相信这个小岛就位于东亚海外,属于“Indies”(印度地方,包含今日印度、中南半岛及东印度群岛等地),所以他把当地人称为“Indians”(这正是美国原住民也被称为“印第安人”的原因)。一直到他过世,哥伦布都不认为自己犯了一个大错。不论是对他还是许多当代的人来说,说他发现了一个完全未知的大陆,这根本难以想象。毕竟千百年来,不管是那些伟大的思想家和学者甚至是不可能犯错的《圣经》,都只知道有欧洲、非洲和亚洲。怎么有可能他们全错了呢?难道《圣经》居然漏了大半个世界,只字未提?这种情况,就好像是说在1969年阿波罗11号要前往月球的途中,居然撞到了另一个从来没人看到的月亮。而正因为哥伦布不愿意接受自己的无知,我们可以说他仍然是个中世纪的人,深信着自己已经知道了全世界,所以就算已经有了如此重大的发现,也无法说服他。

至于第一个成为“现代人”的,其实是意大利水手亚美利哥·韦斯普奇(Amerigo Vespucci),他曾在1499~1504年多次航行前往美洲。而在1502~1504年间,欧洲有两篇描述这些航程的文章发表,一般人们相信就出于韦斯普奇之手。这两篇文章提出,哥伦布发现的小岛旁边应该不是东亚,而是一整个大陆,而且不管是《圣经》、过去的地理学者或是当时的欧洲人,在先前都不知道这块大陆的存在。1507年,地图绘制大师马丁·瓦尔德泽米勒(Martin Waldseemiller)相信了这种说法,出版了新版的世界地图。于是,这片西班牙船队向西航行所碰上的土地,终于首次以一块独立大陆的姿态出现在地图上。既然要画,瓦尔德泽米勒就得给它取个名字,但他误以为发现美洲的人是亚美利哥·韦斯普奇,因此为了向他致敬,这片大陆就被命名为“America”(美洲)。瓦尔德泽米勒的地图洛阳纸贵,其他许多地图绘制师也跟着有样学样,因此“美洲”这个名词就这样广为流传。说来也算是老天有眼,到头来,全球有1/4的陆地、七大洲之中的两洲,名字就是来自一个名不见经传的意大利人,而他唯一做的事就只是有勇气说出“我们不知道”。
 

发现美洲,对于科学革命是一大奠基事件。这不但让欧洲人知道实际的观察比过去的传统更重要,而且想征服美洲的欲望也让欧洲人开始求知若渴。他们如果真想控制这片广大的新领地,就一定得收集所有相关地理、气候、植物、动物、语言、文化、历史的庞大数据。在这些时候,不管是基督教《圣经》、过时的地理书籍或是古老的口传知识,都无用武之地。
 

从此之后,不只是欧洲地理学家,欧洲几乎所有知识领域的学者都学会了留白这一套,诚实面对自己领域的无知,并试着加以填补。他们开始承认自己的理论还不完美,一定还有什么尚未得知的重要信息。

 图2 1525年的萨尔瓦提世界地图(Salviati World Map)。1459年版的世界地图上画 满了各个大陆、岛屿,而且还有详细的解释,但萨尔瓦提地图则有大片留白。我们可以看到美洲的海岸线一路向下之后,接着就是一片空白。任何人只要有一点点的好奇心,看到这份地图之后一定会问:“在那后面有什么呢?”地图上没有答案。这就像是一份邀请,请读者亲身起航、一探究竟

 

来源:电气工程研习社

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