本人不崇尚洋节,此代码仅供玩乐,
快到圣诞节了,氿 柒先祝大家圣诞快乐
一:圣诞树弹窗(打印)
import os
import sys
import platform
import random
import time
import numpy as np
class UI(object):
def __init__(self):
os_name = platform.uname()[0]
self.IS_WIN = os_name == 'Windows'
self.IS_MAC = os_name == 'Darwin'
if self.IS_WIN:
self.RED = 0x0C
self.GREY = 0x07
self.BLUE = 0x09
self.CYAN = 0x0B
self.LINK = 0x30
self.BLACK = 0x0
self.GREEN = 0x0A
self.WHITE = 0x0F
self.PURPLE = 0x0D
self.YELLOW = 0x0E
else:
self.RED = '\033[1;31m'
self.GREY = '\033[38m'
self.BLUE = '\033[1;34m'
self.CYAN = '\033[36m'
self.LINK = '\033[0;36;4m'
self.BLACK = '\033[0m'
self.GREEN = '\033[32m'
self.WHITE = '\033[37m'
self.PURPLE = '\033[35m'
self.YELLOW = '\033[33m'
self.p = self.win_print if self.IS_WIN else self.os_print
def clear(self):
os.system('cls' if self.IS_WIN else 'clear')
return self
def win_reset(self, color):
from ctypes import windll
handler = windll.kernel32.GetStdHandle(-11)
return windll.kernel32.SetConsoleTextAttribute(handler, color)
def win_print(self, msg, color, enter=True):
color = color or self.BLACK
self.win_reset(color | color | color)
sys.stdout.write(('%s\n' if enter else '%s') % msg)
self.win_reset(self.RED | self.GREEN | self.BLUE)
return self
def os_print(self, msg, color, enter=True):
color = color or self.BLACK
sys.stdout.write(
('%s%s%s\n' if enter else '%s%s%s') % (color, msg, self.BLACK))
return self
def tree(ui, level=3):
a = [i for i in range(0, (level + 1) * 4, 2)]
b = a[0:2]
for i in range(2, len(a) - 2, 2):
b.append(a[i])
b.append(a[i + 1])
b.append(a[i])
b.append(a[i + 1])
b.append(a[-2])
b.append(a[-1])
light = True
while True:
ui.clear()
ui.p(u'\t\t\t圣诞节快乐!\n\t\t\t', ui.RED)
print
light = not light
lamp(ui, b, light)
for i in range(2, len(b)):
ui.p(
'%s/' % (' ' * b[len(b) - i - 1]), ui.GREEN, enter=False)
neon(ui, 2 * b[i] + 1)
ui.p('\\', ui.GREEN, enter=True)
time.sleep(0.2)
def neon(ui, space_len):
colors = [ui.RED, ui.GREY, ui.BLUE, ui.CYAN, ui.YELLOW]
for i in range(space_len):
if random.randint(0, 16) == 5:
ui.p('o', colors[random.randint(0, len(colors) - 1)], enter=False)
else:
ui.p(' ', ui.RED, enter=False)
def lamp(ui, tree_arr, light):
colors = [ui.WHITE, ui.BLUE]
if not light:
colors.reverse()
ui.p(' ' * (tree_arr[-1] + 1), ui.BLACK, enter=False)
ui.p('|', colors[1])
ui.p(' ' * tree_arr[-1], ui.BLACK, enter=False)
ui.p('\\', colors[1], enter=False)
ui.p('|', colors[0], enter=False)
ui.p('/', colors[1])
ui.p(' ' * tree_arr[-2], ui.BLACK, enter=False)
ui.p('-', colors[0], enter=False)
ui.p('-', colors[1], enter=False)
ui.p('=', colors[0], enter=False)
ui.p('O', colors[1], enter=False)
ui.p('=', colors[0], enter=False)
ui.p('-', colors[1], enter=False)
ui.p('-', colors[0], enter=True)
ui.p(' ' * tree_arr[-1], ui.BLACK, enter=False)
ui.p('/', colors[1], enter=False)
ui.p('|', colors[0], enter=False)
ui.p('\\', colors[1])
ui.p(' ' * tree_arr[-2], ui.BLACK, enter=False)
ui.p('/ ', ui.GREEN, enter=False)
ui.p('|', colors[1], enter=False)
ui.p(' \\', ui.GREEN, enter=True)
def main():
ui = UI()
max_rows = 4
tree(ui, max_rows)
if __name__ == '__main__':
main()
效果:
二:圣诞树+雪花+星星+烟花
import turtle as t
import random
import threading
import time
import tkinter as tk
import math
from math import cos, sin, atan, sqrt
import numpy as np
import turtle
# 窗口设置
turtle.title("圣诞树烟花特效")
t.screensize(bg='black') # 定义背景颜色
# 心函数
def loving_heart(r):
l = 2 * r
t.left(45)
t.forward(l)
t.circle(r, 180)
t.right(90)
t.circle(r, 180)
t.forward(l)
# 星函数
def loving_star(n):
for i in range(5):
t.forward(n / 5)
t.right(144)
t.forward(n / 5)
t.left(72)
# 树函数(递归)
def tree(d, s):
if d <= 0:
return
t.width(5)
t.forward(s)
tree(d - 1, s * .8)
t.right(120)
tree(d - 3, s * .5)
t.right(120)
tree(d - 3, s * .5)
t.right(120)
t.backward(s) # 回退函数
# 画爱心部分
t.penup()
t.goto(0, 200) # 设置起点位置
t.pendown()
t.pencolor('red') # 设置画笔颜色
t.color('red')
t.begin_fill() # 对图形进行填充
loving_heart(20) # 执行画爱心函数
t.end_fill()
# 画树部分
n = 100
t.speed(0)
# t.Turtle().screen.delay(0)
t.right(225)
t.color("dark green")
t.backward(n * 4.8)
tree(15, n)
t.backward(n / 5)
# 绘制落叶
for i in range(100):
a = 100 - 200 * random.random()
b = 10 - 20 * random.random()
t.speed(0)
t.up()
t.forward(b)
t.left(90)
t.forward(a)
t.down()
if random.randint(1, 2) == 1:
t.color('tomato')
else:
t.color('wheat')
t.circle(4)
t.up()
t.backward(a)
t.right(90)
t.backward(b)
# 绘制雪花
def drawsnow(): # 定义画雪花的方法
t.speed(0)
t.ht() # 隐藏笔头,ht=hideturtle
t.pensize(2) # 定义笔头大小
for i in range(160): # 画多少雪花
t.pencolor("white") # 定义画笔颜色为白色,其实就是雪花为白色
t.pu() # 提笔,pu=penup
t.setx(random.randint(-350, 350)) # 定义x坐标,随机从-350到350之间选择
t.sety(random.randint(-100, 350)) # 定义y坐标,注意雪花一般在地上不会落下,所以不会从太小的纵座轴开始
t.pd() # 落笔,pd=pendown
dens = 6 # 雪花瓣数设为6
snowsize = random.randint(2, 10) # 定义雪花大小
for j in range(dens): # 就是6,那就是画5次,也就是一个雪花五角星
# t.forward(int(snowsize)) #int()取整数
t.fd(int(snowsize))
t.backward(int(snowsize))
# t.bd(int(snowsize)) #注意没有bd=backward,但有fd=forward,小bug
t.right(int(360 / dens)) # 转动角度
drawsnow()
# 画五角星
for i in range(-200, 200, 20):
t.penup()
t.goto(i, 300) # 设置起点位置
t.pendown()
t.pencolor('yellow') # 设置画笔颜色
t.color('yellow')
t.begin_fill() # 对图形进行填充
loving_star(30)
t.end_fill()
t.right(0)
for i in range(-150, 150, 20):
t.penup()
t.goto(i, 280) # 设置起点位置
t.pendown()
t.pencolor('yellow') # 设置画笔颜色
t.color('yellow')
t.begin_fill() # 对图形进行填充
loving_star(30)
t.end_fill()
t.right(0)
for i in range(-100, 100, 20):
t.penup()
t.goto(i, 260) # 设置起点位置
t.pendown()
t.pencolor('yellow') # 设置画笔颜色
t.color('yellow')
t.begin_fill() # 对图形进行填充
loving_star(30)
t.end_fill()
t.right(0)
for i in range(-50, 50, 20):
t.penup()
t.goto(i, 240) # 设置起点位置
t.pendown()
t.pencolor('yellow') # 设置画笔颜色
t.color('yellow')
t.begin_fill() # 对图形进行填充
loving_star(30)
t.end_fill()
t.right(0)
for i in range(-20, 21, 20):
t.penup()
t.goto(i, 220) # 设置起点位置
t.pendown()
t.pencolor('yellow') # 设置画笔颜色
t.color('yellow')
t.begin_fill() # 对图形进行填充
loving_star(30)
t.end_fill()
t.right(0)
# 写下署名
t.color("white") # 填充颜色
t.up() # 抬笔
t.goto(170, -240)
t.down() # 落笔
t.write("Merry Christmas", font=("Times New Roman", 18, "normal"))
t.ht()
# t.done()
t.hideturtle()
time.sleep(2)
# 烟火
WIDTH = 0
HEIGHT = 0
ORI = (0, 0)
COLOR = {
'0': '#070920', 'navyblue': '#000080'}
FIRE = []
def setParam():
global WIDTH
global HEIGHT
global ORI
global FIRE
WIDTH = t.window_width()
HEIGHT = t.window_height()
ORI = (0, -HEIGHT / 2)
# gold
FIRE.append(['white', '#FFD700', '#DAA520', '#BDB76B', ])
# red
FIRE.append(['white', '#F08080', '#A0522D', '#DC143C', ])
# green
FIRE.append(['white', '#7FFF00', '#32CD32', '#006400', ])
# cyan
FIRE.append(['white', '#40E0D0', '#00FFFF', '#008080', ])
# pink
FIRE.append(['white', '#FF69B4', '#FF1493', '#8B008B', ])
# buff
FIRE.append(['white', '#FFE4C4', '#FFDAB9', '#F0FFF0', ])
# bluish
FIRE.append(['white', '#ADD8E6', '#AFEEEE', '#00BFFF', ])
def dist(a, b): # 距离
return ((a - b) * (a - b)).sum()
def shoot():
t.tracer(4) # 在循环中,图形将一次画出4次循环的图
t.pu()
target = np.array((np.random.randint(-WIDTH // 6, WIDTH // 6),
HEIGHT // 6)) # 都在同一高度
angle = atan((target - ORI)[1] / (target - ORI)[0])
if angle < 0:
angle += math.pi # 纠正负方向
unit = np.array([cos(angle), sin(angle)]) # 方向向量
print('angle: ', angle)
print('target: ', target)
# 镜头的顺序坐标
seq = np.array([ORI, ORI - 55 * unit, ORI - 105 * unit, ORI - 155 * unit])
t.speed(0) # 瞬动
while dist(seq[0], target) > 120: # 如果没有到达爆炸中心
seq = seq + 30 * unit
t.goto(seq[1])
t.pd()
t.width(3)
t.pencolor('white')
t.goto(seq[0])
t.pu()
t.goto(seq[2])
t.pd()
t.width(3)
t.pencolor('yellow')
t.goto(seq[1])
t.pu()
# 清除发射上去的光束尾迹
t.goto(seq[3])
t.pd()
t.width(10)
t.pencolor(COLOR['0'])
t.goto(seq[2])
t.pu()
time.sleep(0.05)
# 发射上去的光束最后清除
t.pd()
t.width(10)
t.goto(seq[0])
t.pu()
time.sleep(0.1)
return target # 就在爆炸中心
def explode(center):
number = np.random.randint(50, 100) # 光束数
colormode = np.random.randint(0, 5)
unit = np.array([]) # 方向向量
spd = [] # 每个光束的速度
seq = [] # 每个波束的顺序坐标
if colormode <= 1:
coloridx = [np.random.randint(0, len(FIRE))]
elif colormode == 2:
coloridx = [np.random.randint(0, len(FIRE)),
np.random.randint(0, len(FIRE))]
elif colormode == 3:
coloridx = [np.random.randint(0, len(FIRE)),
np.random.randint(0, len(FIRE)),
np.random.randint(0, len(FIRE))]
elif colormode == 4:
coloridx = []
# 不同大小烟花的步骤
steps = int((number ** 0.5) * 2)
# 初始化
for i in range(number):
angle = np.random.rand() * 2 * math.pi - math.pi
unit = np.append(unit, [cos(angle), sin(angle)]).reshape(-1, 2)
seq = np.append(
seq,
[center,
center - 10 * unit[i], center - 50 * unit[i],
center - 90 * unit[i], center - 130 * unit[i],
center - 135 * unit[i]]
)
spd.append(int(15 + (np.random.rand() - 0.5) * 5))
if colormode <= 1:
coloridx.append(coloridx[0])
elif colormode == 2:
coloridx.append(coloridx[np.random.randint(0, 2)])
elif colormode == 3:
coloridx.append(coloridx[np.random.randint(0, 3)])
elif colormode == 4:
coloridx.append(np.random.randint(0, len(FIRE)))
seq = seq.reshape([-1, 6, 2]).astype(np.int32)
t.tracer(0x3f3f3f3f) # 关闭自动更新,0x3f3f3f3f是一个大数字
for stage in range(steps):
for i in range(number):
seq[i] = seq[i] + spd[i] * unit[i]
seq[i][4] = center
for cur in range(4):
t.pu()
t.goto(seq[i][cur + 1])
t.pd()
t.pencolor(FIRE[coloridx[i]][cur])
t.width(4 - cur)
t.goto(seq[i][cur])
t.pu()
if stage >= 5: # 等待所有光束就位
t.update()
time.sleep(0.04)
# 清除每次绽放的烟花
for cur in range(4, -1, -1):
for i in range(number):
t.pu()
t.goto(seq[i][cur + 1])
t.pd()
t.pencolor(COLOR['0'])
t.width(100)
t.goto(seq[i][cur])
t.pu()
time.sleep(0.02)
t.update()
def main():
t.setup(700, 750, 100, 0)
setParam()
while True:
point = shoot()
explode(point)
exitonclick() # 在任何位置单击退出
if __name__ == '__main__':
main()
效果:
三、树+雪花
import turtle as t
from turtle import *
import random as r
import time
import turtle
# 窗口设置
turtle.title("圣诞树雪花+树")
n = 100.0
speed("fastest")
screensize(bg='black')
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)
def drawlight():
if r.randint(0, 30) == 0:
color('tomato')
circle(6)
elif r.randint(0,30) == 1:
color('orange')
circle(3)
else:
color('dark green')
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)
drawlight()#同时画小彩灯
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 * r.random()
b = 10 - 20 * r.random()
up()
forward(b)
left(90)
forward(a)
down()
if r.randint(0, 1) == 0:
color('tomato')
else:
color('wheat')
circle(2)
up()
backward(a)
right(90)
backward(b)
t.color("dark red","red")
t.write("Merry Christmas",align ="center",font=("Comic Sans MS",40,"bold"))#写字
def drawsnow():
t.ht() #隐藏笔头,ht=hideturtle
t.pensize(2) #定义笔头大小
for i in range(200): #画多少雪花
t.pencolor("white") #定义画笔颜色为白色,其实就是雪花为白色
t.pu() #提笔,pu=penup
t.setx(r.randint(-350,350)) #定义x坐标,随机从-350到350之间选择
t.sety(r.randint(-100,350)) #定义y坐标,注意雪花一般在地上不会落下,所以不会从太小的纵座轴开始
t.pd() #落笔,pd=pendown
dens = 6 #雪花瓣数设为6
snowsize = r.randint(1,10) #定义雪花大小
for j in range(dens): #就是6,那就是画5次,也就是一个雪花五角星
#t.forward(int(snowsize)) #int()取整数
t.fd(int(snowsize))
t.backward(int(snowsize))
#t.bd(int(snowsize)) #注意没有bd=backward,但有fd=forward,小bug
t.right(int(360/dens)) #转动角度
drawsnow()#画雪花
t.done() # 完成,否则会直接关闭
效果:
四、应该可以表白的圣诞树
from turtle import *
import time
import turtle
# 窗口设置
turtle.title("好看圣诞树 ")
setup(500, 500, startx=None, starty=None)
speed(0)
pencolor("red")
pensize(10)
penup()
hideturtle()
goto(0, 150)
showturtle()
pendown()
shape(name="classic")
# 1
seth(-120)
for i in range(10):
fd(12)
right(2)
penup()
goto(0, 150)
seth(-60)
pendown()
for i in range(10):
fd(12)
left(2)
seth(-150)
penup()
fd(10)
pendown()
for i in range(5):
fd(10)
right(15)
seth(-150)
penup()
fd(8)
pendown()
for i in range(5):
fd(10)
right(15)
seth(-155)
penup()
fd(5)
pendown()
for i in range(5):
fd(7)
right(15)
# 2
penup()
goto(-55, 34)
pendown()
seth(-120)
for i in range(10):
fd(8)
right(5)
penup()
goto(50, 35)
seth(-60)
pendown()
for i in range(10):
fd(8)
left(5)
seth(-120)
penup()
fd(10)
seth(-145)
pendown()
for i in range(5):
fd(10)
right(15)
penup()
fd(10)
seth(-145)
pendown()
for i in range(5):
fd(12)
right(15)
penup()
fd(8)
seth(-145)
pendown()
for i in range(5):
fd(10)
right(15)
penup()
seth(-155)
fd(8)
pendown()
for i in range(5):
fd(11)
right(15)
# 3
penup()
goto(-100, -40)
seth(-120)
pendown()
for i in range(10):
fd(6)
right(3)
penup()
goto(80, -39)
seth(-50)
pendown()
for i in range(10):
fd(6)
left(3)
seth(-155)
penup()
fd(10)
pendown()
for i in range(5):
fd(8)
right(10)
penup()
fd(8)
seth(-145)
pendown()
for i in range(7):
fd(8)
right(10)
penup()
fd(8)
seth(-145)
pendown()
for i in range(7):
fd(7)
right(10)
penup()
fd(8)
seth(-145)
pendown()
for i in range(7):
fd(7)
right(10)
penup()
fd(8)
seth(-140)
pendown()
for i in range(7):
fd(6)
right(10)
# 4
penup()
goto(-120, -95)
seth(-130)
pendown()
for i in range(7):
fd(10)
right(5)
penup()
goto(100, -95)
seth(-50)
pendown()
for i in range(7):
fd(10)
left(5)
penup()
seth(-120)
fd(10)
seth(-155)
pendown()
for i in range(6):
fd(8)
right(10)
penup()
seth(-160)
fd(10)
seth(-155)
pendown()
for i in range(6):
fd(8)
right(10)
penup()
seth(-160)
fd(10)
seth(-155)
pendown()
for i in range(6):
fd(8)
right(10)
penup()
seth(-160)
fd(10)
seth(-160)
pendown()
for i in range(6):
fd(8)
right(10)
penup()
seth(-160)
fd(10)
seth(-160)
pendown()
for i in range(6):
fd(8)
right(10)
penup()
seth(-160)
fd(10)
seth(-165)
pendown()
for i in range(5):
fd(10)
right(11)
# 5
penup()
goto(-70, -165)
seth(-85)
pendown()
for i in range(3):
fd(5)
left(3)
penup()
goto(70, -165)
seth(-95)
pendown()
for i in range(3):
fd(5)
right(3)
seth(-170)
penup()
fd(10)
pendown()
pendown()
for i in range(10):
fd(12)
right(2)
# 6
penup()
goto(70, -165)
pendown()
seth(-90)
pensize(8)
pencolor("#de8891")
circle(-20, 90)
penup()
goto(30, -185)
pendown()
seth(-180)
pensize(8)
pencolor("#de8891")
fd(40)
penup()
goto(-5, -170)
pendown()
seth(-180)
pensize(8)
pencolor("#de8891")
fd(35)
def guest(x, y, z):
penup()
goto(x, y)
seth(-z)
pendown()
for angel in range(5):
fd(10)
right(10)
def guet(x, y, z):
penup()
goto(x, y)
seth(-z)
pendown()
for angel in range(5):
fd(10)
left(10)
def qu(x, y, z):
penup()
goto(x, y)
seth(-z)
pendown()
for angel in range(5):
fd(6)
right(10)
seth(-150)
fd(20)
# 树枝
guest(-70, -150, 160)
guest(100, -150, 160)
guet(110, -110, 50)
guest(160, -140, 150)
qu(80, -120, 180)
guest(70, -85, 165)
guest(-40, -85, 165)
guet(90, -50, 50)
guest(130, -80, 150)
pencolor("pink")
qu(-40, -60, 180)
pencolor('#de8891')
qu(80, -30, 180)
pencolor("pink")
qu(40, 10, 180)
pencolor("#de8891")
guest(-60, 30, 120)
guest(-20, -20, 150)
guet(45, 40, 60)
guest(-30, 40, 170)
guest(-30, 110, 115)
guet(40, 90, 60)
guest(80, 50, 160)
pencolor("#de8891")
def hdj(x, y):
penup()
goto(x, y)
seth(80)
pendown()
pensize(2)
circle(5)
seth(10)
fd(15)
seth(120)
fd(20)
seth(240)
fd(20)
seth(180)
fd(20)
seth(-60)
fd(20)
seth(50)
fd(20)
seth(-40)
fd(30)
seth(-130)
fd(5)
seth(135)
fd(30)
seth(-60)
fd(30)
seth(-150)
fd(6)
seth(110)
fd(30)
def uit(x, y):
penup()
goto(x, y)
pendown()
pensize(2)
circle(5)
seth(-10)
fd(15)
seth(90)
fd(15)
seth(200)
fd(15)
seth(160)
fd(15)
seth(-90)
fd(15)
seth(10)
fd(15)
seth(-60)
fd(20)
seth(-180)
fd(5)
seth(110)
fd(20)
seth(-90)
fd(20)
seth(-180)
fd(6)
seth(70)
fd(15)
hideturtle()
def yut(x, y, z):
penup()
goto(x, y)
pendown()
seth(z)
for po in range(5):
fd(4)
left(36)
def ytu(x, y, z):
penup()
goto(x, y)
pendown()
seth(z)
for kk in range(5):
fd(4)
left(36)
# 小蝴蝶结
seth(0)
uit(40, -160)
hdj(-80, -120)
yut(-67, -115, 120)
yut(-86, -123, 150)
hdj(40, -50)
yut(52, -45, 130)
yut(34, -55, 160)
seth(0)
uit(-20, -60)
ytu(-4, -60, 100)
ytu(-20, -60, 120)
hdj(-30, 20)
yut(-15, 25, 130)
yut(-40, 20, 180)
uit(30, 70)
ytu(45, 70, 100)
ytu(30, 70, 120)
# 大蝴蝶结
pencolor("#f799e6")
pensize(5)
penup()
seth(0)
goto(0, 150)
pendown()
circle(10)
seth(-15)
fd(40)
seth(90)
fd(40)
seth(200)
fd(40)
seth(160)
fd(40)
seth(-90)
fd(40)
seth(15)
fd(40)
seth(-70)
pencolor("#f799e6")
pensize(4)
fd(40)
seth(-180)
fd(10)
seth(100)
fd(40)
seth(-100)
fd(40)
seth(-180)
fd(10)
seth(70)
fd(40)
penup()
seth(0)
goto(0, 130)
pencolor("pink")
pendown()
def iou(x, y, z):
penup()
goto(x, y)
pencolor("#f799e6")
pendown()
seth(z)
for po in range(10):
fd(4)
left(18)
seth(0)
iou(35, 145, 100)
iou(-7, 145, 110)
pencolor("red")
pensize(7)
penup()
goto(-35, 135)
pendown()
# 圣诞帽
seth(-20)
pensize(2)
penup()
goto(-30, -120)
pencolor("black")
pendown()
fillcolor("red")
fd(30)
circle(4, 180)
fd(30)
circle(4, 180)
penup()
goto(-25, -115)
seth(75)
pendown()
begin_fill()
for i in range(5):
fd(6)
right(20)
seth(-10)
for i in range(5):
fd(8)
right(15)
seth(145)
for i in range(5):
fd(5)
left(2)
seth(90)
for i in range(5):
fd(1)
left(2)
seth(-90)
for i in range(4):
fd(4)
right(6)
seth(161)
fd(30)
end_fill()
pensize(1)
pencolor("black")
def koc(x, y, size):
pensize(2)
pencolor("black")
penup()
goto(x, y)
pendown()
begin_fill()
fillcolor("yellow")
for i in range(5):
left(72)
fd(size)
right(144)
fd(size)
end_fill()
# 星星
seth(-15)
koc(-120, -70, 10)
seth(10)
koc(100, -20, 10)
seth(-10)
koc(10, 40, 10)
seth(30)
koc(-80, 60, 10)
koc(100, -150, 10)
koc(-140, -150, 10)
koc(20, 120, 10)
# 袜子
seth(-20)
pensize(2)
penup()
goto(-20, 80)
pencolor("black")
pendown()
fillcolor("red")
fd(25)
circle(4, 180)
fd(25)
circle(4, 180)
penup()
goto(-15, 80)
pendown()
begin_fill()
fillcolor("red")
seth(-120)
fd(20)
seth(150)
fd(5)
circle(7, 180)
fd(15)
circle(5, 90)
fd(30)
seth(160)
fd(18)
end_fill()
penup()
seth(0)
goto(100, -230)
pendown()
write("我可爱成这样,做你圣诞礼物好不好", align="right", font=("方正黄草简体", 16, "bold"))
done()
效果:
五、爱心圣诞树
# -*- coding: utf-8 -*-
import turtle as t
import random
import turtle
# 窗口设置
turtle.title("爱心圣诞树")
# 爱心函数
# 将爱心分为两个半圆与一个正方形
# r为半圆半径,l = 2r为正方形边长
# 调整半径即可调整爱心大小
def loving_heart(r):
l = 2 * r
t.left(45)
t.forward(l)
t.circle(r, 180)
t.right(90)
t.circle(r, 180)
t.forward(l)
# 树函数(递归)
def tree(d, s):
if d <= 0:
return
t.forward(s)
tree(d - 1, s * .8)
t.right(120)
tree(d - 3, s * .5)
t.right(120)
tree(d - 3, s * .5)
t.right(120)
t.backward(s) #回退函数
#画爱心部分
t.penup()
t.goto(0,200) #设置起点位置
t.pendown()
t.pencolor('pink') #设置画笔颜色
t.color('pink')
t.begin_fill() #对图形进行填充
loving_heart(20) #执行画爱心函数
t.end_fill()
#画树部分
n = 100
t.speed('fastest')
#t.Turtle().screen.delay(0)
t.right(225)
t.color("dark green")
t.backward(n * 4.8)
tree(15, n)
t.backward(n / 5)
#绘制落叶
for i in range(200):
a = 200 - 400 * random.random()
b = 10 - 20 * random.random()
t.up()
t.forward(b)
t.left(90)
t.forward(a)
t.down()
if random.randint(0, 1) == 0:
t.color('tomato')
else:
t.color('wheat')
t.circle(2)
t.up()
t.backward(a)
t.right(90)
t.backward(b)
t.hideturtle()
效果:
