import turtle lados = eval(input("Pon un número de lados del 2 al 10: ")) velocidad = eval( input( "Del 1 al 10 que tan rápido quieres que dibuje,si me me quieres lo más rápido posible escoge 0: " )) tortuga = turtle.Pen() turtle.bgcolor("black") tortuga.speed(velocidad) #Spyralhjisdj[ colores = [ "pink", "violet red", "turquoise", "sienna", "peru", "papaya whip", "purple", "yellow", "blue", "gray" ] for distancia in range(1000): tortuga.pencolor(colores[distancia % lados]) tortuga.forward(distancia * 3 / lados + distancia) tortuga.left(360 / lados + 1) tortuga.width(distancia * lados / 200)
import turtle wn= turtle.Screen() e= turtle.Pen() e.up() e.backward(35) e.left(90) e.forward(250) e.down() image3="m.gif" wn.addshape(image3) e.shape(image3) h= turtle.Pen() h.up() h.forward(500) h.left(90) h.forward(250) h.down() image6="yyy.gif" wn.addshape(image6) h.shape(image6) g= turtle.Pen() g.up() g.forward(500) g.left(90) g.forward(250) g.down() image5="inter.gif" wn.addshape(image5) g.shape(image5) wn.bgpic("pic5.gif") s= turtle.Pen()
"circle pattern" import turtle as t colors = ["red", "purple", "green", "blue"] t.bgcolor("black") s = t.Pen() for i in range(360): s.pencolor(colors[i % 4]) s.width(i / 100 + 1) s.forward(i) s.left(59) t.done()
import turtle john = turtle.Pen() mike = turtle.Pen() john.forward(100) john.fillcolor('red') mike.right(90) mike.forward(100) turtle.done()
import turtle lapis = turtle.Pen() def quadrado(): for x in range(5): lapis.forward(50) lapis.right(90) def espaco_depois_quadrado(): lapis.left(90) lapis.penup() lapis.forward(50) lapis.pendown() lapis.color('green', 'green') lapis.begin_fill() quadrado() lapis.end_fill() espaco_depois_quadrado() lapis.color('red', 'red') lapis.begin_fill()
import turtle avery = turtle.Pen() kate = turtle.Pen() avery.forward(50) avery.right(90) avery.right(20) kate.left(90) kate.forward(100) jakob = turtle.Pen() jakob.left(180) jakob.forward(80) kate = turtle.Pen() kate.forward(100) kate.left(200)
#Catch the turtle import turtle import math import random score = 0 print("\n" * 40) print("Your score is:\n0") #Title t = turtle.Pen() t.pencolor("Blue") t.hideturtle() t.penup() t.setposition(-70, 350) t.write("Catch the turtle", font=("Verdana", 18)) #Tip text = turtle.Pen() t.pencolor("Red") t.hideturtle() t.penup() t.setposition(-70, -350) t.write("DON'T TOUCH THE EDGES!", font=("Verdana", 18)) #Set up screen wn = turtle.Screen() wn.bgcolor("lightblue") wn.title("Catch the Turtle") #Draw border
#!/usr/bin/env python import turtle import random aj = turtle.Pen() y = 0 aj.speed(1) turtle.screensize(600, 800) turtle.bgcolor("black") aj.shape("turtle") aj.pensize(10) x = aj.xcor() for each in range(1, 2, 1): aj.color(random.random(), random.random(), random.random()) aj.goto(random.randint(0, 600) - 300, random.randint(0, 800) - 400)
import turtle wn = turtle.Screen() bob = turtle.Pen() #bob.goto(0,0) def yay(): bob.forward(100) wn.onkey(yay, "s") wn.listen()
teca.forward(80) teca.left(120) #joana cores = ["blue", "green", "red", "black"] joana = turtle.Turtle() #joana.color("blue") joana.pensize(2) #int(input("Insira o tamanho da caneta: "))) for i in cores: joana.color(i) joana.forward(50) joana.left(90) #esfera esfera = turtle.Turtle() esfera = turtle.Pen() esfera.color("green") #input("Insira a cor do circulo: ")) esfera.circle(100) #estrela def star(estrela): estrela = turtle.Turtle() estrela.pensize(7) for j in range(6): estrela.left(int(input("Posicao: "))) estrela.color(input("Insira a cor da estrela: ")) for i in range(5): estrela.forward(144) estrela.left(144)
# \*********************************************************\ # To access drawing function, use 'turtle' library import turtle # Let paint be the variable that manipulates the turtle pen paint = turtle.Pen() # \*********************************************************\ # Draw a dank symbol def draw(): paint.forward(150) paint.left(90) paint.forward(100) paint.left(45) paint.forward(100) paint.left(90) paint.forward(150) paint.left(180) # Loop for drawing the drawing for i in range(8): draw() # \*********************************************************\
#eg.绘制一个正方形 import turtle as p p.reset() p.Pen() p.pencolor('red') p.bgcolor('yellow') p.pensize(5) p.fillcolor('green') p.begin_fill() p.forward(150) p.right(90) p.forward(150) p.right(90) p.forward(150) p.right(90) p.forward(150) p.right(90) p.end_fill() """ 知识点 1. 绘制一个正方形 import turtle as p[调用时直接赋变量] p.pencolor('red')[画笔颜色] p.bgcolor('yellow')[背景颜色] p.pensize(5)[笔的粗细] p.fillcolor('green')[填充颜色] p.begin_fill().........p.end_fill()[只要是封闭区域,就填充颜色] """
#The "Irfan_Yusra_WinterScene" #Instructor: Ms. Dorosz #Assignment Name: Winter Scene #Class: TEJ 3M0 #@Author Yusra Irfan #@Version 1.9 #Date of Submission: 2016 import turtle import random import math t=turtle.Pen()#other details t1=turtle.Pen()#snowman t2=turtle.Pen()#house and window t3=turtle.Pen()#right eye t4=turtle.Pen()#santa t5=turtle.Pen()#deer t6=turtle.Pen()#smoke turtle.delay(0) t.hideturtle() t1.hideturtle() t2.hideturtle() t3.hideturtle() t4.hideturtle() t.speed("fastest") t1.speed("fastest") t2.speed("fastest") t3.speed("fastest") t4.speed("fastest")
import turtle window = turtle.Screen() window.bgcolor("white") window.title("Zach's Square Spiral #1") turtle_drawingpen = turtle.Pen() turtle_drawingpen.pencolor("black") turtle_drawingpen.speed(200) for counter in range(1000): turtle_drawingpen.forward(counter) turtle_drawingpen.left(90) if (counter > 50): turtle_drawingpen.pensize(1) window.bgcolor("blue") else: turtle_drawingpen.pensize(2) window.bgcolor("red")
#meme.py import turtle meme21 = turtle.Pen() meme21.speed(0) meme21.hideturtle() meme21.color("purple") meme21.penup() meme21.left(180) meme21.forward(8) meme21.right(90) meme21.forward(290) meme21.right(90) meme21.begin_fill() for x in range(73): meme21.forward(22) meme21.right(5) meme21.end_fill() meme20 = turtle.Pen() meme20.speed(0) meme20.hideturtle() meme20.color("black") meme20.penup() meme20.left(180) meme20.forward(5) meme20.right(90) meme20.forward(278) meme20.right(90) meme20.begin_fill() for x in range(73):
import turtle goldiloks = turtle.Pen() goldiloks.color("red") goldiloks.shape("turtle") goldiloks.speed(0) for i in range(360): goldiloks.left(1) for j in range(4): goldiloks.forward(100 + 5 * i) goldiloks.left(90) turtle.done()
# avery.forward(20) # kate.left(40) # kate.forward(87) # jacob.left(123) # jacob.forward(63) # jacob.right(123) # jacob.forward(25) # jacob.right(102) # 1 reginald = Giraffes() reginald.dance() #2 import turtle a = turtle.Pen() e = turtle.Pen() w = turtle.Pen() t = turtle.Pen() l = turtle.Pen() a.backward(120) e.left(90) e.forward(50) e.right(90) e.forward(55) w.right(90) w.forward(50) w.left(90) w.forward(55) t.forward(10) t.right(90)
#----------------------------------------------------------------------------------------------------------------------- #introdução a Programação de Computadores #Prof. Jucimar Jr. #Adham Lucas da Silva Oliveira 1715310001 #Erik Atilio Silva Rey 1715310059 #Enrique Leão Barbosa Izel 1715310048 #Guilherme Silva de Oliveira 1715310034 #Lukas Michel Souza Mota 1715310018 #Ulisses Antonio Antonino da Costa 1515090555 # #Desenhar um polígono com 3 lados iguais. Cada lado uma cor diferente. #----------------------------------------------------------------------------------------------------------------------- import turtle #importando a tartaruga colors = ['purple', 'blue', 'orange'] #definindo as cores t = turtle.Pen() #simbolizando que a caneta da tartaruga significa t turtle.bgcolor('black') #definindo a cor de fundo for x in range(3): #quantidade de linhas que a tartaruga desenhará t.pencolor(colors[x % 3]) #quais cores ela utilizará t.forward(100) #a distancia que a tartaruga avançará t.left(120) #o angulo que a a tartaruga irá se mover à esquerda
#importing the tutrle library import turtle #creating a turtle myturtle = turtle.Pen() #set turtle speed, default speed is 3 myturtle.speed(5) #set color of turtle, first input value for lines second input value for filling myturtle.color("red", "yellow") #start filling myturtle.begin_fill() #draw line 100 forward 100 pixel myturtle.forward(100) #turns the turtles head to the left of 90 degrees. note: turtle head start with 0 degrees which is looking to the right myturtle.left(90) myturtle.forward(100) myturtle.left(90) myturtle.forward(100) myturtle.left(90) myturtle.forward(100) myturtle.left(90) #stop filling myturtle.end_fill() turtle.exitonclick()
import turtle troye = turtle.Pen() # troye.PenColor("red") troye.pencolor("red") troye.shape('turtle') troye.left(60) troye.forward(100) troye.left(120) troye.forward(100) troye.left(120) troye.forward(200) troye.right(120) troye.forward(100) troye.right(120) troye.forward(100) troye.right(30) troye.forward(100) troye.right(120) troye.forward(100) troye.right(120) troye.forward(200) troye.left(120) troye.forward(100) troye.left(120) troye.forward(100) turtle.done()
import turtle #引用turtle库 q = turtle.Pen() #构造画笔 turtle.bgcolor("black") #画布的背景颜色为黑色 sides = 7 #定义变量控制环绕程度 colors = ["red", "orange", "yellow", "green", "cyan", "blue", "purple"] for x in range(360): #for循环控制画笔的走向与速度 q.speed(35) q.pencolor(colors[x % sides]) q.forward(x * 3 / sides + x) q.left(360 / sides + 1) q.width(x * sides / 200) turtle.done()
def __init__(self, step): self.step = step self.pen = turtle.Pen() self.pen.up() self.pen.goto(300, 300) self.pen.down()
import turtle turtle.bgcolor("black") tony = turtle.Pen() tony.pencolor("blue") for i in range(25): tony.goto(i * 4, 100) tony.goto(100, i * i) tony.pencolor("yellow") for n in range(25): tony.goto(n * n, 100) tony.goto(100, n - 100) tony.pencolor("green") for n in range(100): tony.goto(n * n, 100) tony.goto(100, n - 100) #set tony at x = 0 ##tony.setx(100) ##tony.sety(-100) ## ##tony.goto(200, 100) ##tony.goto(100, 200) #draw a "switch back" pattern ##for x in range(25): ## tony.forward(200) ## tony.left(90) ## tony.forward(20)
import turtle import time leonardo = turtle.Pen() leonardo.pencolor("blue") # '#0000ff' mike = turtle.Pen() mike.pencolor("yellow") raf = turtle.Pen() don = turtle.Pen() leonardo.forward(90) leonardo.left(45) leonardo.forward(90) mike.left(45) mike.forward(90) time.sleep(100)
import turtle pen = turtle.Pen() pen.up() pen.backward(250) pen.down() pen.color('red', 'yellow') pen.speed(0) pen.begin_fill() for var in range(200): pen.forward(500) pen.left(171) pen.end_fill() turtle.exitonclick()
# \*********************************************************\ # To access drawing function, use 'turtle' library import turtle # Let 'star' be the variable that manipulates the turtle pen star = turtle.Pen() # \*********************************************************\ # Define functions def point(): star.pencolor("red") star.backward(15) star.forward(50) star.left(85) star.forward(80) star.left(140) star.forward(53) star.backward(53) star.right(140) star.backward(80) star.right(265) star.forward(50) star.right(150) # \*********************************************************\
import turtle t1 = turtle.Pen() t2 = turtle.Pen() t3 = turtle.Pen() t4 = turtle.Pen() t1.left(180) t1.forward(200) t1.left(180) t1.forward(200) t1.left(90) t2.right(90) t1.forward(70) t2.forward(70) t3.forward(10) t4.forward(10) t1.right(90) t2.left(90) t1.forward(50) t2.forward(50) t3.left(90) t4.right(90) t3.forward(30) t4.forward(30) t3.right(90) t4.left(90) t3.forward(30) t4.forward(30)
import turtle fred = turtle.Pen()
import turtle t = turtle.Pen() turtle.bgcolor("black") t.speed(0) sides = 6 colors = ["red", "yellow", "blue", "orange", "green", "purple"] for x in range(360): t.pencolor(colors[x % sides]) t.forward(x * 3 / sides + x) t.left(360 / sides + 360) t.width(x * sides / 100)
#eg.1 #Pan[P要大写] >>> import turtle >>> p = turtle.Pen() #方向是0°,路径是100(向前)像素 >>> p.forward(100) #方向是0°,路径是50(向前)像素[比第一条长了一点] >>> p.forward(50) >>> p.left(90) >>> p.right(180) >>> p.backward(200) #向左转一圈 >>> p.left(45) >>> p.left(45) >>> p.left(45) >>> p.left(45) >>> p.left(45) >>> p.left(45) >>> p.left(45) >>> p.left(45) #向右转一圈 >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45) >>> p.right(45)