# drawing.py
# Sun with sunglasses
# By Cory Chung
#
# This is a drawing of a sun with sunglasses.


from turtle import *

# ORIGINAL

# forward(100)
# right(360 * 2 / 5)
# forward(100)
# right(360 * 2 / 5)
# forward(100)
# right(360 * 2 / 5)
# forward(100)
# right(360 * 2 / 5)
# forward(100)
# right(360 * 2 / 5)

# ASSIGNMENT

# set initial position higher, but keep original orientation
penup()
left(90)
forward(200)
left(90)
forward(50)
right(180)
pendown()

# begin by drawing a dodecagon
for i in range(11):
    forward(100)
    right(30)
forward(100)
left(30) # restore original orientation

# create equilateral triangles on the edges
for i in range(11):
    forward(100)
    right(120)
    forward(100)
    left(90)
forward(100)
right(120)
forward(100) # don't go left because we don't need to draw any more triangles

# move into a position to draw left half of sunglasses

penup()
right(120)
forward(100)
left(30)
forward(50)

# draw left half of sunglasses

pendown()
left(60)
forward(50)
left(60)
for i in range(5):
    forward(100)
    right(90)
forward(50)
left(90)
forward(67)

# get into position to draw right half of sunglasses

right(180)
forward(67)
right(90)
forward(50)
left(90)
forward(100)
right(60)
forward(50)
right(60)
forward(50)
right(30)
for i in range(3):
    forward(100)
    right(30)
forward(50)

# draw right half of sunglasses

right(60)
forward(50)
right(60)
for i in range(5): 
    forward(100)
    left(90)
forward(50)
right(90)
forward(67)

# position to make a smile

right(180)
forward(67)
left(90)
forward(50)
right(90)
forward(100)
left(60)
forward(50)
left(60)
forward(50)
left(30)
forward(100)
left(30)
forward(50)
left(90)
penup() # we don't want to have the pen down while we reposition the turtle
forward(300)

# draw smile

pendown()
left(90)
forward(50)
left(30)
forward(50)
right(180)
forward(50)
right(30)
forward(100)
right(30)
forward(50)

input()