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#!/usr/bin/env python
#
# [SNIPPET_NAME: Chaos]
# [SNIPPET_CATEGORIES: PyTurtle]
# [SNIPPET_DESCRIPTION: Use turtle to graph chaos.]
# [SNIPPET_DOCS: http://docs.python.org/library/turtle.html]
# [SNIPPET_AUTHOR: Grant Bowman <grantbow@ubuntu.com>]
# [SNIPPET_LICENSE: PSF]
# Code authorship from http://python.org/download/releases/2.6.4/
# File: tdemo_chaos.py
# Author: Gregor Lingl
# Date: 2009-06-24
# A demonstration of chaos
from turtle import *
N = 80
def f(x):
return 3.9*x*(1-x)
def g(x):
return 3.9*(x-x**2)
def h(x):
return 3.9*x-3.9*x*x
def jumpto(x, y):
penup(); goto(x,y)
def line(x1, y1, x2, y2):
jumpto(x1, y1)
pendown()
goto(x2, y2)
def coosys():
line(-1, 0, N+1, 0)
line(0, -0.1, 0, 1.1)
def plot(fun, start, colour):
pencolor(colour)
x = start
jumpto(0, x)
pendown()
dot(5)
for i in range(N):
x=fun(x)
goto(i+1,x)
dot(5)
def main():
reset()
setworldcoordinates(-1.0,-0.1, N+1, 1.1)
speed(0)
hideturtle()
coosys()
plot(f, 0.35, "blue")
plot(g, 0.35, "green")
plot(h, 0.35, "red")
# Now zoom in:
for s in range(100):
setworldcoordinates(0.5*s,-0.1, N+1, 1.1)
return "Done!"
if __name__ == "__main__":
main()
mainloop()
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