def gradient():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.title("Gradient")
w.setup(700, 700)
w.clear()
t = turtle.Turtle()
t.speed(0)
t.hideturtle()
#t.penup()
#red = 255;green = 0; blue = 0
red = random.randint(0,255)
green = random.randint(0,255)
blue = random.randint(0,255)
redHex = hexcon(red); greenHex = hexcon(green); blueHex = hexcon(blue)
thecolor = "#"+redHex+greenHex+blueHex
t.color(thecolor)
t.penup()
t.goto(0,200)
t.pendown()
style = ('Arial', 30, 'bold')
t.write('Gradient', font=style, align='center')
grad(t,red, green, blue)
w.exitonclick()
finally:
turtle.Terminator()
def eye(x, y, penwidth, first, second, third):
try:
yeet = turtle.Turtle()
turtle.tracer(0, 0)
for i in range(45):
#yeet.pencolor("red")
yeet.penup()
#if (yeet.pensize() != 5)
yeet.pensize(5)
yeet.goto(x, y)
yeet.pendown()
yeet.pencolor("red")
yeet.width(penwidth)
yeet.forward(first) #200
yeet.pencolor("green")
yeet.left(100)
yeet.forward(second) #160
yeet.pencolor("blue")
yeet.right(80)
yeet.forward(third) #30
yeet.right(70)
yeet.penup()
turtle.update()
#yeet.pensize(1)
finally:
turtle.Terminator()
def main(): try: #Old main turtle.TurtleScreen._RUNNING = True #get width and height globally turtle.screensize(canvwidth=width, canvheight=height, bg=bgstring) print(turtle.Screen().screensize()) w = turtle.Screen() w = turtle.Screen() hello_world() border_line() border_line_2() border_line_3() border_line_4() border_line_5() border_line_6() #border_line_7() #border_line_8() polygon_1() polygon_2() polygon_3() polygon_4() polygon_5() circle_1() circle_2() #circle_3() #circle_4() #circle_5() finisher_red() w.exitonclick() #new main finally: turtle.Terminator()
def main():
try:
turtle.TurtleScreen._RUNNING = True
turtle.screensize(canvwidth=100, canvheight=100, bg=None)
w = turtle.Screen()
t = turtle.Turtle()
circles(t)
w.exitonclick()
finally:
turtle.Terminator()
def main(): try: turtle.TurtleScreen._RUNNING = True turtle.screensize(canvwidth=700, canvheight=700, bg=None) print(turtle.Screen().screensize()) w = turtle.Screen() drawing(t) w.exitonclick() finally: turtle.Terminator()
def main():
try:
turtle.TurtleScreen._RUNNING = True
# get wdth and hgth globally
print(turtle.Screen().screensize())
w = turtle.Screen()
t = turtle.Turtle()
t.hideturtle()
grid(t)
plotCircles(t)
w.exitonclick()
finally:
turtle.Terminator()
def main(): try: turtle.TurtleScreen._RUNNING = True # get wdth and hgth globally turtle.screensize(canvwidth=wdth, canvheight=hgth, bg=bgstring) print(turtle.Screen().screensize()) w = turtle.Screen() t = turtle.Turtle() t.hideturtle() grid(t) plotCircles(t) w.exitonclick() finally: turtle.Terminator()
def turtle1():
try:
turtle.TurtleScreen._RUNNING = True
x = 0; y = 0
w = turtle.Screen()
w.setup(800, 700)
w.title("Welcome to the turtle zoo!")
w.clear()
w.bgcolor("#ffffff")
w.visible = True
t = turtle.Turtle()
circle(t,x,y)
w.exitonclick()
finally:
turtle.Terminator()
def get_mouse_click_coor2(x, y): #this is da main
try:
mouseposx = x
mouseposy = y
cordprint = (str(x) + ", " + str(y))
print('"eye" at: ' + cordprint) #debug
turtle.hideturtle()
#need.rectangle_filled(x, y, random.randint(10,100), random.randint(10,100), menu_color)
#ec.eye(x, y, random.randint(0, 2), random.randint(100, 120), random.randint(50, 100),random.randint(10, 50), menu_color)
sm.star(x, y, random.randint(20, 50))
print(str(menu_color))
need.text(x, y, cordprint, menu_color, 8, "") #debug
turtle.penup()
finally:
turtle.Terminator()
def ulam():
vector = [-1,0,90,180,180,270, \
270,0,0,0,90, \
90,90,180,180,180, \
180,270,270,270,270, \
0,0,0,0,0]
x = -400
y = 0
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.title("Ulam Spiral")
w.setup(700, 700)
w.clear()
w.bgcolor("#fdf6e3")
t = turtle.Turtle()
t.penup()
t.goto(0, 300)
style = ('Arial', 30, 'bold')
t.write('Ulam Spiral', font=style, align='center')
t.penup()
t.goto(0, 0)
t.speed(0)
t.pendown()
for i in range(1, 26):
prime = isprime(i)
#print(prime)
tcolor = "#268bd2"
if ((prime == True) and (i > 1)):
x, y = t.pos()
x = int(x)
y = int(y)
#print(x,y)
tcolor = "#859900"
circler(t, x, y, 10, tcolor)
t.goto(x, y)
t.color(tcolor)
t.dot()
#t.circle(15)
t.pendown()
t.seth(vector[i])
tcolor = "#268bd2"
t.color(tcolor)
t.forward(30)
w.exitonclick()
#print("number",i," prime = " ,prime )
finally:
turtle.Terminator()
def chaos():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.title("Chaos")
w.clear()
w.bgcolor("#FDF6E3")
t = turtle.Turtle()
t.ht()# hide turtle
t.speed(0)
t.penup()
t.color("#50b3b3")
t.goto(0,-300)
style = ('Arial', 30, 'bold')
t.write('Chaos - Sierpiński Triangle', font=style, align='center')
t.color("#ffffff")
t.width(1)
h = randint(-10,10) # Calculate a starting point for x
k = randint(-10,10) # Calculate a starting point for y
c = ""
alist =[h,k,c] # Assign the starting points to a list.
count = 0
while True:
alist = newpoint(alist) # Get a new point from a function that is half way between the current point and a random vertex of a triangle.
x = alist[0] # Assign a new x value from the list alist[] to x
y = alist[1] # Assign a new y value from the list alist[] to y
theColor = alist[2]
t.penup()
t.goto(x, y)
t.pendown()
if (theColor == 0):
cs = "#32DC7F"
elif (theColor == 1):
cs = "#7F32DC"
else:
cs = "#DC327F"
t.color(cs) #32DC7F;#7F32DC;#DC327F;
t.seth(90)
#t.dot()
t.fd(1)
count = count + 1
if (count > 1000000):
break
#input("Press return to end")
w.exitonclick()
finally:
turtle.Terminator()
def main(): try: turtle.tracer(2,0) turtle.TurtleScreen._RUNNING = True t = turtle.Turtle() screen = turtle.Screen() bob = 0 movie(t) clear(t) while (bob == 0): legs1(t) clear(t) legs2(t) clear(t) screen.exitonclick() finally: turtle.Terminator()
def main():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.clear()
t = turtle.Turtle()
t.speed(0)
t.hideturtle()
#t.penup()
#red = 255;green = 0; blue = 0
red = random.randint(0, 255)
green = random.randint(0, 255)
blue = random.randint(0, 255)
grad(t, red, green, blue)
w.exitonclick()
finally:
turtle.Terminator()
def elipse(t,a,b):
try:
turtle.TurtleScreen._RUNNING = True
t.penup()
x = (a*-1); y = 0
t.goto(0,0)
t.pendown()
t.color("#00ff00")
start = 1
while (x < (a+1)):
y = ((b*b)*(1-((x*x)/(a*a))))**0.5
y = int(y)
if(start == 1):
t.penup()
start = 0
else:
t.pendown()
t.goto(x,y)
x = x + 1
start = 1
x = x - 1
t.penup()
while (x > -1*a - 1):
y = (((b*b)*(1-((x*x)/(a*a))))**0.5)*-1
y = int(y)
if(start == 1):
t.penup()
start = 0
else:
t.pendown()
t.goto(x,y)
x = x - 1
w.exitonclick()
finally:
turtle.Terminator()
def callElipse():
w = turtle.Screen()
w.clear()
t = turtle.Turtle()
a = 35; b = 70
t.width(4)
elipse(t,a,b)
a = 20; b = 40
t.width(4)
elipse(t,a,b)
def callLeo():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.setup(700, 700)
w.clear()
w.title("three")
w.bgcolor("#0000ff")
t = turtle.Turtle()
t.pendown()
x = 100
y = 0
count = 0
t.width(10)
t.color("#ffffff")
t.circle(50)
w.exitonclick()
finally:
turtle.Terminator()
def ringsv2():
try:
turtle.TurtleScreen._RUNNING = True
turtle.screensize(canvwidth=700, canvheight=700, bg=None)
x = -30
y = 0
w = turtle.Screen()
w.clear()
w.bgcolor("#ffffff")
t = turtle.Turtle()
turtle.tracer(0, 0)
#t.shape('classic')
#t.hideturtle()
#t.speed(0)
t.penup()
t.goto(0, 0)
#t.speed(0)
t.color("#000000")
blackring(t)
t.up()
bluering(t)
t.up()
redring(t)
t.up()
yellowring(t)
t.up()
greenring(t)
t.up()
blueringfill(t)
t.up()
blackringfill1(t)
t.up()
blackringfill2(t)
t.color('#ff00ff')
t.up()
redringfill(t)
#t.hideturtle()
turtle.update()
w.exitonclick()
finally:
turtle.Terminator()
def callSpiral():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.title("Recursion")
w.clear()
w.bgcolor("#505050")
t = turtle.Turtle()
t.color("#FFEDBF")
t.penup()
t.goto(0,300)
style = ('Arial', 30, 'bold')
t.write('Recursion Example - Spiral', font=style, align='center')
t.penup()
t.goto(-100,250)
t.pendown()
drawSpiral(t,170,1)
w.exitonclick()
finally:
turtle.Terminator()
def star(x, y, length):
try:
turtle.tracer(0, 0)
need.penupsetxy(x - length / 2, y)
for side in range(0, 5):
if (side == 1):
turtle.color("red")
elif (side == 2):
turtle.color("green")
elif (side == 3):
turtle.color("blue")
elif (side == 4):
turtle.color("red")
elif (side == 5):
turtle.color("green")
turtle.forward(length)
turtle.right(144)
turtle.update()
finally:
turtle.Terminator()
def callElipse():
try:
turtle.TurtleScreen._RUNNING = True
w = turtle.Screen()
w.title("Elipse")
w.clear()
t = turtle.Turtle()
t.penup()
t.color("#ff0000")
t.goto(-200, 300)
style = ('Arial', 30, 'bold')
t.color("#ff3300")
t.write('Elipse', font=style, align='left')
t.goto(-200, 260)
t.color("#ff7700")
style = ('Arial', 14, 'bold')
t.write('[TOP] y = ((b*b)*(1-((x*x)\/(a*a))))**0.5',
font=style,
align='left')
t.goto(-200, 240)
t.write('[BOTTOM] y = (((b*b)*(1-((x*x)\/(a*a))))**0.5)*-1',
font=style,
align='left')
a = 35
b = 70
t.width(10)
t.color("#0000dd")
elipse(t, a, b)
a = 27
b = 60
t.width(7)
t.color("#0077dd")
elipse(t, a, b)
a = 17
b = 50
t.width(3.5)
t.color("#00ffdd")
elipse(t, a, b)
w.exitonclick()
finally:
turtle.Terminator()
def kk():
turtle.home()
turtle.pendown()
righty = 45
turtle.setheading(random.randrange(0, 360))
for practicesquarerotation in range(1, 200):
turtle.right(righty)
turtle.forward(practicesquarerotation)
print(practicesquarerotation)
myxloc = turtle.xcor()
if turtle.distance(0, 0) >= 200:
turtle.home()
practicesquarerotation = practicesquarerotation * -1
righty = righty * -1
if turtle.distance(200, -300) >= 300:
mynewvar = myxloc * -1
turtle.circle(turtle.distance(0, 0) / 10)
if turtle.distance(0, 0) >= 300:
turtle.home()
turtle.circle(turtle.distance(0, 0) / 100)
if practicesquarerotation % 200 == 0:
turtle.Terminator(True)
def bruh2():
try:
pn.menucol("black")
turtle.onscreenclick(pn.get_mouse_click_coor2)
finally:
turtle.Terminator()
def menucol(col):
try:
global menu_color
menu_color = col
finally:
turtle.Terminator()
Python 3.7.0 (v3.7.0:1bf9cc5093, Jun 27 2018, 04:59:51) [MSC v.1914 64 bit (AMD64)] on win32
Type "copyright", "credits" or "license()" for more information.
>>> import turtle
>>> turtle.forward(100)
>>> turtle.exitonclick()
>>> import turtle
>>> turtle.shape("turtle")
Traceback (most recent call last):
File "<pyshell#4>", line 1, in <module>
turtle.shape("turtle")
File "<string>", line 5, in shape
turtle.Terminator
>>> turtle.Terminator("turtle")
Terminator('turtle')
>>> turtle.forward(100)
>>> turtle.left(90)
>>> turtle.forward(100)
>>> turtle.left(90)
>>> turtle.forward(100)
>>> turtle.left(90)
>>> turtle.forward(100)
>>> turtle.exitonclick()
>>> turtle.exitonclick()
Traceback (most recent call last):
File "<pyshell#14>", line 1, in <module>
turtle.exitonclick()
File "<string>", line 5, in exitonclick
turtle.Terminator
>>> import
SyntaxError: invalid syntax
>>>
def turt():
try:
turtle.TurtleScreen._RUNNING = True
turtle.screensize(canvwidth=700, canvheight=700, bg=None)
x = -400
y = 0
w = turtle.Screen()
w.clear()
w.bgcolor("#ffffff")
t = turtle.Turtle()
x = -400
y = 0
t.speed(0)
t.penup()
t.goto(0, 100)
t.begin_fill()
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 11, 90)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 50, 45, 180)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 11, 0)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 45, 90)
t.goto(260, -50)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 45, 90)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 11, 270)
t.goto(145, -270)
t.goto(140, -200)
t.goto(135, -170)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 11, 180)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 45, 270)
t.goto(0, 100)
tcolor = "#00ff00"
t.color(tcolor)
arcR(t, x, y, 25, 45, 270)
t.end_fill()
t.penup()
t.right(130)
t.forward(250)
t.right(90)
t.forward(100)
t.color("red")
t.pendown()
t.begin_fill()
t.forward(10)
t.circle(10)
t.end_fill()
t.penup()
t.forward(30)
t.color("red")
t.pendown()
t.begin_fill()
t.forward(10)
t.circle(10)
t.end_fill()
w.exitonclick()
finally:
turtle.Terminator()
elif int(x) == 6:
art = smile
elif int(x) == 7:
art = cool
else:
art = kitty
shape = input("What would you like the shape of each pixel to be?\n1) Square\n2) Triangle\n3) Circle\n > ")
if int(shape) == 2:
shape = 'triangle'
elif int(shape) == 3:
shape = 'circle'
else:
shape = 'square'
screen()
turtle.tracer(0, 0)
pallet_1, pixels_1 = load_art(art)
draw(pallet_1, pixels_1, shape)
turtle.update()
save_art = int(input("Would you like to save this image?\n1) Yes\n2) No\n > "))
if save_art == 1:
save_image()
turtle.Terminator() # Keeps image on screen
set_persist = input("Would you like me to draw another image?\n1) Yes\n2) No\n > ")
if int(set_persist) == 1:
screen_reset(myPen)
else:
persist = False
def __init__(self):
try:
turtle.Terminator()
except Exception as e:
pass
def turtleClose(self):
try:
turtle.Terminator()
except Exception as e:
pass
def ganar():
import turtle
import time
t = turtle.Turtle()
turtle.setup(1400, 750)
t.speed(0)
turtle.bgcolor("#000000")
turtle.title("¡Felicidades!")
t.shape("turtle")
t.color("green", "green")
t.pensize(5)
t.pencolor("yellow")
# t.bgcolor('lightyellow')
#G
t.forward(-500)
t.left(90)
t.forward(200)
t.right(90)
t.forward(100)
t.forward(-100)
t.left(90)
t.forward(-200)
t.right(90)
t.forward(100)
t.left(90)
t.forward(100)
t.right(90)
t.forward(-50)
#A
t.forward(50)
t.left(90)
t.forward(-100)
t.right(90)
t.forward(50)
t.left(80)
t.forward(200)
t.left(180)
t.forward(100)
t.left(100)
t.forward(55)
t.forward(-55)
t.left(80)
t.forward(100)
t.right(150)
t.forward(210)
t.left(70)
t.forward(50)
#N
t.forward(200)
t.forward(-200)
t.left(90)
t.forward(200)
t.left(30)
t.forward(-230)
t.right(30)
t.forward(200)
t.forward(-200)
t.right(90)
t.forward(500)
t.forward(-450)
#A
t.left(80)
t.forward(200)
t.left(180)
t.forward(100)
t.left(100)
t.forward(55)
t.forward(-55)
t.left(80)
t.forward(100)
t.right(150)
t.forward(210)
t.left(70)
t.forward(50)
#S
t.forward(100)
t.left(90)
t.forward(100)
t.left(90)
t.forward(100)
t.right(90)
t.forward(100)
t.right(90)
t.forward(100)
t.forward(-100)
t.right(90)
t.forward(100)
t.left(90)
t.forward(100)
t.left(90)
t.forward(-100)
t.right(90)
t.forward(100)
#T
t.left(90)
t.forward(200)
t.left(90)
t.forward(50)
t.forward(-100)
t.forward(50)
t.right(90)
t.forward(-200)
t.right(90)
t.forward(100)
#E
t.forward(100)
t.forward(-100)
t.left(90)
t.forward(200)
t.right(90)
t.forward(100)
t.forward(-100)
t.left(90)
t.forward(-100)
t.right(90)
t.forward(50)
t.forward(-50)
t.left(90)
t.forward(-100)
t.right(90)
t.forward(100)
t.left(180)
t.forward(500)
t.left(90)
t.forward(180)
t.right(124)
for i in range(35):
t.forward(i * 10)
t.right(144)
time.sleep(5)
turtle.bye()
turtle.Terminator()
a = snake.xcor()
b = snake.ycor()
old_fruit[0].goto(a, b)
snake_move()
##snake and border collision
if snake.xcor() > 280 or snake.xcor() < -300 or snake.ycor(
) > 240 or snake.ycor() < -240:
time.sleep(1)
screen.clear()
screen.bgcolor('turquoise')
scoring.goto(0, 0)
scoring.write(" GAME OVER \n Your Score is {}".format(score),
align="center",
font=("Courier", 30, "bold"))
## snake collision
for food in old_fruit:
if food.distance(snake) < 20:
time.sleep(1)
screen.clear()
screen.bgcolor('turquoise')
scoring.goto(0, 0)
scoring.write(" GAME OVER \n Your Score is {}".format(score),
align="center",
font=("Courier", 30, "bold"))
time.sleep(delay)
turtle.Terminator()
def rainbowv2():
try:
turtle.TurtleScreen._RUNNING = True
turtle.screensize(canvwidth=700, canvheight=700, bg=None)
x = -400
y = 0
w = turtle.Screen()
w.clear()
w.bgcolor("#ffffff")
t = turtle.Turtle()
x = -400
y = 0
t.speed(0)
t.penup()
t.goto(-400, -100)
t.pendown()
t.begin_fill()
tcolor = "#ff0000"
t.color(tcolor)
arcR(t, x, y, 75, 11.25, 90)
tcolor = "#ff0000"
t.color(tcolor)
arcR(t, x, y, 75, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-345, -100)
tcolor = "#ffa500"
t.color(tcolor)
arcR(t, x, y, 65, 11.25, 90)
tcolor = "#ffa500"
t.color(tcolor)
arcR(t, x, y, 65, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-285, -100)
tcolor = "#ffff00"
t.color(tcolor)
arcR(t, x, y, 55, 11.25, 90)
tcolor = "#ffff00"
t.color(tcolor)
arcR(t, x, y, 55, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-225, -100)
tcolor = "#008000"
t.color(tcolor)
arcR(t, x, y, 45, 11.25, 90)
tcolor = "#008000"
t.color(tcolor)
arcR(t, x, y, 45, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-165, -100)
tcolor = "#0000ff"
t.color(tcolor)
arcR(t, x, y, 35, 11.25, 90)
tcolor = "#0000ff"
t.color(tcolor)
arcR(t, x, y, 35, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-105, -100)
tcolor = "#4b0082"
t.color(tcolor)
arcR(t, x, y, 25, 11.25, 90)
tcolor = "#4b0082"
t.color(tcolor)
arcR(t, x, y, 25, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(-45, -100)
tcolor = "#8a2be2"
t.color(tcolor)
arcR(t, x, y, 15, 11.25, 90)
tcolor = "#8a2be2"
t.color(tcolor)
arcR(t, x, y, 15, 11.25, 0)
t.end_fill()
t.penup()
t.begin_fill()
t.goto(15, -100)
tcolor = "#ffffff"
t.color(tcolor)
arcR(t, x, y, 5, 11.25, 90)
tcolor = "#ffffff"
t.color(tcolor)
arcR(t, x, y, 5, 11.25, 0)
t.end_fill()
t.hideturtle()
w.exitonclick()
finally:
turtle.Terminator()
