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本文小编为大家详细介绍“怎么用Python实现表白代码”,内容详细,步骤清晰,细节处理妥当,希望这篇“怎么用Python实现表白代码”文章能帮助大家解决疑惑,下面跟着小编的思路慢慢深入,一起来学习新知识吧。
实现代码:
from turtle import *
import time
setup(1000,800,0,0)
speed(0)
penup()
seth(90)
fd(340)
seth(0)
pendown()
speed(5)
begin_fill()
fillcolor('red')
circle(50,30)
for i in range(10):
fd(1)
left(10)
circle(40,40)
for i in range(6):
fd(1)
left(3)
circle(80,40)
for i in range(20):
fd(0.5)
left(5)
circle(80,45)
for i in range(10):
fd(2)
left(1)
circle(80,25)
for i in range(20):
fd(1)
left(4)
circle(50,50)
time.sleep(0.1)
circle(120,55)
speed(0)
seth(-90)
fd(70)
right(150)
fd(20)
left(140)
circle(140,90)
left(30)
circle(160,100)
left(130)
fd(25)
penup()
right(150)
circle(40,80)
pendown()
left(115)
fd(60)
penup()
left(180)
fd(60)
pendown()
end_fill()
right(120)
circle(-50,50)
circle(-20,90)
speed(1)
fd(75)
speed(0)
circle(90,110)
penup()
left(162)
fd(185)
left(170)
pendown()
circle(200,10)
circle(100,40)
circle(-52,115)
left(20)
circle(100,20)
circle(300,20)
speed(1)
fd(250)
penup()
speed(0)
left(180)
fd(250)
circle(-300,7)
right(80)
circle(200,5)
pendown()
left(60)
begin_fill()
fillcolor('green')
circle(-80,100)
right(90)
fd(10)
left(20)
circle(-63,127)
end_fill()
penup()
left(50)
fd(20)
left(180)
pendown()
circle(200,25)
penup()
right(150)
fd(180)
right(40)
pendown()
begin_fill()
fillcolor('green')
circle(-100,80)
right(150)
fd(10)
left(60)
circle(-80,98)
end_fill()
penup()
left(60)
fd(13)
left(180)
pendown()
speed(1)
circle(-200,23)
exitonclick()
什么?只有玫瑰花太单调?那再给你来几个爱心够不够?
实现代码:
import turtle
import time
import random
# 爱心函数
def yellowheart(x, y, liftx):
turtle.pensize(3)
turtle.speed(10)
turtle.color("red", "red")
turtle.up()
turtle.goto(x, y)
turtle.down()
turtle.begin_fill()
turtle.left(liftx)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
def rose():
turtle.speed(0) # 画笔移动的速度
#turtle.tracer(False)
# 设置初始位置
turtle.penup() # 提起画笔
turtle.left(90) # 逆时针转动画笔90度
turtle.fd(200)
turtle.pendown() # 放下画笔,移动画笔即开始绘制
turtle.right(90)
# 设置画笔的大小
turtle.pensize(2)
# 花蕊
turtle.fillcolor("red") # 填充颜色
turtle.begin_fill() # 开始填充
turtle.circle(10, 180)
turtle.circle(25, 110)
turtle.left(50)
turtle.circle(60, 45)
turtle.circle(20, 170)
turtle.right(24)
turtle.fd(30)
turtle.left(10)
turtle.circle(30, 110)
turtle.fd(20)
turtle.left(40)
turtle.circle(90, 70)
turtle.circle(30, 150)
turtle.right(30)
turtle.fd(15)
turtle.circle(80, 90)
turtle.left(15)
turtle.fd(45)
turtle.right(165)
turtle.fd(20)
turtle.left(155)
turtle.circle(150, 80)
turtle.left(50)
turtle.circle(150, 90)
turtle.end_fill() # 结束填充
# 右侧花瓣
turtle.left(150)
turtle.circle(-90, 70)
turtle.left(20)
turtle.circle(75, 105)
turtle.setheading(60)
turtle.circle(80, 98)
turtle.circle(-90, 40)
# 左侧花瓣
turtle.left(180)
turtle.circle(90, 40)
turtle.circle(-80, 98)
turtle.setheading(-83)
# 左侧叶子
turtle.fd(30)
turtle.left(90)
turtle.fd(25)
turtle.left(45)
turtle.fillcolor("green")
turtle.begin_fill()
turtle.circle(-80, 90)
turtle.right(90)
turtle.circle(-80, 90)
turtle.end_fill()
turtle.right(135)
turtle.fd(60)
turtle.left(180)
turtle.fd(85)
turtle.left(90)
turtle.fd(80)
# 右侧叶子
turtle.right(90)
turtle.right(45)
turtle.fillcolor("green")
turtle.begin_fill()
turtle.circle(80, 90)
turtle.left(90)
turtle.circle(80, 90)
turtle.end_fill()
turtle.left(135)
turtle.fd(60)
turtle.left(180)
turtle.fd(60)
turtle.right(90)
turtle.circle(200, 50) # 画一个圆 200 是半径,50 是弧度
time.sleep(1)
# turtle.tracer(False)
#turtle.pensize(3)
#turtle.speed(0)
turtle.color("red", "red")
turtle.up()
turtle.goto(-230, 50)
turtle.down()
turtle.begin_fill()
turtle.left(180)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
time.sleep(1)
# turtle.tracer(False)
#turtle.pensize(3)
#turtle.speed(0)
turtle.color("red", "red")
turtle.up()
turtle.goto(-230, -80)
turtle.down()
turtle.begin_fill()
turtle.left(-30)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
time.sleep(1)
# turtle.tracer(False)
# turtle.pensize(3)
# turtle.speed(0)
turtle.color("red", "red")
turtle.up()
turtle.goto(-130, -180)
turtle.down()
turtle.begin_fill()
turtle.left(-80)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
time.sleep(1)
# turtle.tracer(False)
# turtle.pensize(3)
# turtle.speed(0)
turtle.color("red", "red")
turtle.up()
turtle.goto(200, -200)
turtle.down()
turtle.begin_fill()
turtle.left(-90)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
time.sleep(1)
# turtle.tracer(False)
# turtle.pensize(3)
# turtle.speed(0)
turtle.color("red", "red")
turtle.up()
turtle.goto(200, 50)
turtle.down()
turtle.begin_fill()
turtle.left(90)
turtle.fd(80)
turtle.circle(-40, 180)
turtle.left(90)
turtle.circle(-40, 180)
turtle.left(0)
turtle.fd(80)
turtle.end_fill()
def figure1():
turtle.reset()
turtle.tracer(False)
rose()
yellowheart(-230, 50, 180) # 左一
#time.sleep(2)
def figure2():
# turtle.reset()
turtle.tracer(False)
rose()
yellowheart(-230, -80, -30) # 左二
# time.sleep(2)
def figure3():
turtle.reset()
turtle.tracer(False)
rose()
yellowheart(-130, -180, -30) # 左三
# time.sleep(2)
def figure4():
turtle.reset()
turtle.tracer(False)
rose()
yellowheart(200, 50, 90) # 右一
# ime.sleep(2)
def figure5():
turtle.reset()
turtle.tracer(False)
rose()
yellowheart(200, -200, -90) # 右二
# time.sleep(2)
if __name__ == "__main__":
rose()
# figure1()
#
# yellowheart(-230, -80, -30) # 左二
# 不让自动退出,放在程序的最后一行
# 不然画画结束后会自动退出
turtle.done()
coding:utf-8
实现代码:
from turtle import *
from time import sleep
def go_to(x, y):
up()
goto(x, y)
down()
def small_Circle(size): # 函数用于绘制心的小圆
speed(10)
for i in range(210):
forward(size)
right(0.786)
def big_Circle(size): # 函数用于绘制心的大圆
speed(10)
for i in range(150):
forward(size)
right(0.3)
def line(size):
speed(10)
forward(51 * size)
def heart(x, y, size):
go_to(x, y)
left(150)
begin_fill()
line(size)
big_Circle(size)
small_Circle(size)
left(120)
small_Circle(size)
big_Circle(size)
line(size)
end_fill()
def main():
pensize(2)
color('red', 'pink')
getscreen().tracer(1, 0)
heart(100, 0, 0.7)
go_to(80, 70)
write("先生", font=("楷体", 18, "normal"))
setheading(0)
heart(-80, -100, 1)
go_to(-110, 15)
write("小姐", font=("宋体", 20, "normal"))
go_to(40, -80)
write("三生有幸遇见你!", move=True, align="left", font=("arial", 22, "italic"))
done()
main()
实现代码:
'''不正经爱心'''
#coding=utf-8
import turtle
import time
def draw_circle():
for i in range(400):
turtle.right(0.5)
turtle.forward(1)
def draw_love():
# turtle.color('red','darkred')
# turtle.pensize(1)
turtle.pen(fillcolor="pink", pencolor="red", pensize=8)
turtle.speed(2000)
turtle.goto(0, 0)
turtle.begin_fill()
turtle.left(140)
turtle.forward(224)
draw_circle()
turtle.left(120)
draw_circle()
turtle.forward(224)
turtle.end_fill()
turtle.write("I Love you")
time.sleep(2)
turtle.up()
turtle.goto(150, 20)
turtle.color('black')
turtle.write('纵然万劫不复,纵然相思入骨,我待你依旧如初!', font=("微软雅黑", 18, "normal"))
time.sleep(2)
def draw_abc():
turtle.fillcolor("pink")
turtle.pencolor("red")
turtle.pensize(10)
turtle.speed(1)
turtle.up()
turtle.goto(0, -50)
turtle.down()
turtle.begin_fill()
turtle.circle(45)
turtle.end_fill()
time.sleep(2)
def word():
turtle.up()
turtle.goto(-100, 200)
turtle.color("red")
turtle.pensize(4)
# turtle.down()
turtle.write('宝贝,5.20快乐!', font=("隶书", 18, "bold"))
time.sleep(10)
draw_love()
draw_abc()
word()
程序代码:
import turtle as t
t.color('red','pink')
t.begin_fill()
t.width(5)
t.left(135)
t.fd(100)
t.right(180)
t.circle(50,-180)
t.left(90)
t.circle(50,-180)
t.right(180)
t.fd(100)
t.pu()
t.goto(50,-30)
t.pd()
t.right(90)
t.fd(100)
t.right(180)
t.circle(50,-180)
t.left(90)
t.circle(50,-180)
t.right(180)
t.fd(100)
t.end_fill()
t.hideturtle()
t.pu()
t.goto(250,-70)
t.pd()
t.color('black')
t.width(5)
t.left(70)
t.fd(50)
t.fd(-50)
t.left(70)
t.fd(50)
t.fd(-50)
t.left(145)
t.fd(20)
t.left(145)
t.fd(50)
t.fd(-50)
t.left(70)
t.fd(50)
t.fd(-50)
t.left(145)
t.fd(20)
t.left(145)
t.fd(50)
t.fd(-50)
t.left(70)
t.fd(50)
t.fd(-50)
t.left(145)
t.width(3)
t.fd(220)
t.right(90)
t.pu()
t.fd(10)
t.pd()
t.left(90)
t.circle(10,180)
t.circle(10,-90)
t.right(90)
t.fd(-10)
t.pu()
t.fd(90)
t.left(90)
t.fd(10)
t.left(90)
t.pd()
t.circle(10,180)
t.circle(10,-90)
t.left(90)
t.fd(100)
t.begin_fill()
t.left(30)
t.fd(15)
t.right(35)
t.fd(50)
t.right(150)
t.fd(50)
t.right(62)
t.fd(25)
t.end_fill()
t.done()
实现代码:
# 2.14
from turtle import *
from time import sleep
def go_to(x, y):
up()
goto(x, y)
down()
def head(x, y, r):
go_to(x, y)
speed(1)
circle(r)
leg(x, y)
def leg(x, y):
right(90)
forward(180)
right(30)
forward(100)
left(120)
go_to(x, y - 180)
forward(100)
right(120)
forward(100)
left(120)
hand(x, y)
def hand(x, y):
go_to(x, y - 60)
forward(100)
left(60)
forward(100)
go_to(x, y - 90)
right(60)
forward(100)
right(60)
forward(100)
left(60)
eye(x, y)
def eye(x, y):
go_to(x - 50, y + 130)
right(90)
forward(50)
go_to(x + 40, y + 130)
forward(50)
left(90)
def big_Circle(size):
speed(20)
for i in range(150):
forward(size)
right(0.3)
def line(size):
speed(1)
forward(51 * size)
def small_Circle(size):
speed(10)
for i in range(210):
forward(size)
right(0.786)
def heart(x, y, size):
go_to(x, y)
left(150)
begin_fill()
line(size)
big_Circle(size)
small_Circle(size)
left(120)
small_Circle(size)
big_Circle(size)
line(size)
end_fill()
def main():
pensize(2)
color('red', 'pink')
head(-120, 100, 100)
heart(250, -80, 1)
go_to(200, -300)
write("To: 送给智慧与美貌并存的小仙女!", move=True, align="left", font=("楷体", 20, "normal"))
done()
main()
实现代码:
import turtle as T
import random
import time
# 画樱花的躯干(60,t)
def Tree(branch, t):
time.sleep(0.0005)
if branch > 3:
if 8 <= branch <= 12:
if random.randint(0, 2) == 0:
t.color('snow') # 白
else:
t.color('lightcoral') # 淡珊瑚色
t.pensize(branch / 3)
elif branch < 8:
if random.randint(0, 1) == 0:
t.color('snow')
else:
t.color('lightcoral') # 淡珊瑚色
t.pensize(branch / 2)
else:
t.color('sienna') # 赭(zhě)色
t.pensize(branch / 10) # 6
t.forward(branch)
a = 1.5 * random.random()
t.right(20 * a)
b = 1.5 * random.random()
Tree(branch - 10 * b, t)
t.left(40 * a)
Tree(branch - 10 * b, t)
t.right(20 * a)
t.up()
t.backward(branch)
t.down()
# 掉落的花瓣
def Petal(m, t):
for i in range(m):
a = 200 - 400 * random.random()
b = 10 - 20 * random.random()
t.up()
t.forward(b)
t.left(90)
t.forward(a)
t.down()
t.color('lightcoral') # 淡珊瑚色
t.circle(1)
t.up()
t.backward(a)
t.right(90)
t.backward(b)
# 绘图区域
t = T.Turtle()
# 画布大小
w = T.Screen()
t.hideturtle() # 隐藏画笔
t.getscreen().tracer(5, 0)
w.screensize(bg='wheat') # wheat小麦
t.left(90)
t.up()
t.backward(150)
t.down()
t.color('sienna')
# 画樱花的躯干
Tree(60, t)
# 掉落的花瓣
Petal(200, t)
w.exitonclick()
实现代码:
from wordcloud import WordCloud
import PIL.Image as image
import numpy as np
import jieba
# 分词
def trans_CN(text):
# 接收分词的字符串
word_list = jieba.cut(text)
# 分词后在单独个体之间加上空格
result = " ".join(word_list)
return result
# 要读取的txt文本
with open("love.txt", encoding="utf-8") as fp:
text = fp.read()
# print(text)
# 将读取的中文文档进行分词
text = trans_CN(text)
mask = np.array(image.open("love.png")) #添加心形图片
wordcloud = WordCloud(
# 添加遮罩层
mask=mask,
# 生成中文字的字体,必须要加,不然看不到中文
font_path="C:WindowsFontsSTXINGKA.TTF"
).generate(text)
image_produce = wordcloud.to_image()
image_produce.show()
实现代码:
from PIL
import Image, ImageDraw, ImageFont
def draw(pic, draw_text):
img = cv2.imread(pic)
blank = Image.new("RGB", [img.shape[1],
img.shape[0]
], "white")
drawObj = ImageDraw.Draw(blank)
n = 10
m = 9
font = ImageFont.truetype(font_path,
size = m)
for i in range(0, img.shape[0], n):
for j in range(0, img.shape[1], n):
drawObj.text(
[j, i],
draw_text[int(j / n) % len(draw_text)],
fill = (img[i][j][2], img[i][j][1],
img[i][j][0]),
font = font
)
blank.save('img_' + pic)
draw('1.jpg', "我爱你")
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