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turtledemo
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__init__.py
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__main__.py
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__pycache__
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bytedesign.py
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chaos.py
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clock.py
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colormixer.py
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forest.py
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fractalcurves.py
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lindenmayer.py
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minimal_hanoi.py
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nim.py
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paint.py
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peace.py
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penrose.py
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planet_and_moon.py
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rosette.py
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round_dance.py
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sorting_animate.py
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tree.py
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turtle.cfg
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two_canvases.py
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yinyang.py
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Editing: rosette.py
""" turtle-example-suite: tdemo_wikipedia3.py This example is inspired by the Wikipedia article on turtle graphics. (See example wikipedia1 for URLs) First we create (ne-1) (i.e. 35 in this example) copies of our first turtle p. Then we let them perform their steps in parallel. Followed by a complete undo(). """ from turtle import Screen, Turtle, mainloop from time import perf_counter as clock, sleep def mn_eck(p, ne,sz): turtlelist = [p] #create ne-1 additional turtles for i in range(1,ne): q = p.clone() q.rt(360.0/ne) turtlelist.append(q) p = q for i in range(ne): c = abs(ne/2.0-i)/(ne*.7) # let those ne turtles make a step # in parallel: for t in turtlelist: t.rt(360./ne) t.pencolor(1-c,0,c) t.fd(sz) def main(): s = Screen() s.bgcolor("black") p=Turtle() p.speed(0) p.hideturtle() p.pencolor("red") p.pensize(3) s.tracer(36,0) at = clock() mn_eck(p, 36, 19) et = clock() z1 = et-at sleep(1) at = clock() while any(t.undobufferentries() for t in s.turtles()): for t in s.turtles(): t.undo() et = clock() return "runtime: %.3f sec" % (z1+et-at) if __name__ == '__main__': msg = main() print(msg) mainloop()
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