def tree(d, s): if d <= 0: return turtle.forward(s) tree(d - 1, s * .8) turtle.right(120) tree(d - 3, s * .5) turtle.right(120) tree(d - 3, s * .5) turtle.right(120) turtle.back(s)
#star turtle.left(90) turtle.forward(3 * n) turtle.pencolor(Color.YELLOW) turtle.left(126) turtle.pendown() for _ in range(5): turtle.forward(n / 5) turtle.right(144) turtle.forward(n / 5) turtle.left(72) turtle.right(126) #tree turtle.pencolor(Color.GREEN) turtle.back(n * 4.8) def tree(d, s): if d <= 0: return turtle.forward(s) tree(d - 1, s * .8) turtle.right(120) tree(d - 3, s * .5) turtle.right(120) tree(d - 3, s * .5) turtle.right(120) turtle.back(s)
#Turtle Gizmo Asterix #==| Turtle Gizmo Setup start |======================================== import board import busio import displayio from adafruit_st7789 import ST7789 from adafruit_turtle import turtle displayio.release_displays() spi = busio.SPI(board.SCL, MOSI=board.SDA) display_bus = displayio.FourWire(spi, command=board.TX, chip_select=board.RX) display = ST7789(display_bus, width=240, height=240, rowstart=80, backlight_pin=board.A3, rotation=180) turtle = turtle(display) #==| Turtle Gizmo Setup end |========================================= turtle.pendown() for _ in range(20): turtle.forward(80) turtle.back(80) #try changing this to 70 for an iris effect turtle.left(18) while True: pass