Lib/turtledemo/tree.py - platform/external/python/cpython3 - Gitiles

 #!/usr/bin/env python3
 """      turtle-example-suite:

              tdemo_tree.py

 Displays a 'breadth-first-tree' - in contrast
 to the classical Logo tree drawing programs,
 which use a depth-first-algorithm.

 Uses:
 (1) a tree-generator, where the drawing is
 quasi the side-effect, whereas the generator
 always yields None.
 (2) Turtle-cloning: At each branching point the
 current pen is cloned. So in the end there
 are 1024 turtles.
 """
 from turtle import Turtle, mainloop
 from time import clock

 def tree(plist, l, a, f):
     """ plist is list of pens
     l is length of branch
     a is half of the angle between 2 branches
     f is factor by which branch is shortened
     from level to level."""
     if l > 3:
         lst = []
         for p in plist:
             p.forward(l)
             q = p.clone()
             p.left(a)
             q.right(a)
             lst.append(p)
             lst.append(q)
         for x in tree(lst, l*f, a, f):
             yield None

 def maketree():
     p = Turtle()
     p.setundobuffer(None)
     p.hideturtle()
     p.speed(0)
     p.getscreen().tracer(30,0)
     p.left(90)
     p.penup()
     p.forward(-210)
     p.pendown()
     t = tree([p], 200, 65, 0.6375)
     for x in t:
         pass
     print(len(p.getscreen().turtles()))

 def main():
     a=clock()
     maketree()
     b=clock()
     return "done: %.2f sec." % (b-a)

 if __name__ == "__main__":
     msg = main()
     print(msg)
     mainloop()
	#!/usr/bin/env python3
	""" turtle-example-suite:

	tdemo_tree.py

	Displays a 'breadth-first-tree' - in contrast
	to the classical Logo tree drawing programs,
	which use a depth-first-algorithm.

	Uses:
	(1) a tree-generator, where the drawing is
	quasi the side-effect, whereas the generator
	always yields None.
	(2) Turtle-cloning: At each branching point the
	current pen is cloned. So in the end there
	are 1024 turtles.
	"""
	from turtle import Turtle, mainloop
	from time import clock

	def tree(plist, l, a, f):
	""" plist is list of pens
	l is length of branch
	a is half of the angle between 2 branches
	f is factor by which branch is shortened
	from level to level."""
	if l > 3:
	lst = []
	for p in plist:
	p.forward(l)
	q = p.clone()
	p.left(a)
	q.right(a)
	lst.append(p)
	lst.append(q)
	for x in tree(lst, l*f, a, f):
	yield None

	def maketree():
	p = Turtle()
	p.setundobuffer(None)
	p.hideturtle()
	p.speed(0)
	p.getscreen().tracer(30,0)
	p.left(90)
	p.penup()
	p.forward(-210)
	p.pendown()
	t = tree([p], 200, 65, 0.6375)
	for x in t:
	pass
	print(len(p.getscreen().turtles()))

	def main():
	a=clock()
	maketree()
	b=clock()
	return "done: %.2f sec." % (b-a)

	if __name__ == "__main__":
	msg = main()
	print(msg)
	mainloop()