| # Brownian motion -- an example of a NON multi-threaded Tkinter program ;) |
| # By Michele Simoniato, inspired by brownian.py |
| |
| from tkinter import * |
| import random |
| import sys |
| |
| WIDTH = 400 |
| HEIGHT = 300 |
| SIGMA = 10 |
| BUZZ = 2 |
| RADIUS = 2 |
| LAMBDA = 10 |
| FILL = 'red' |
| |
| stop = 0 # Set when main loop exits |
| root = None # main window |
| |
| def particle(canvas): # particle = iterator over the moves |
| r = RADIUS |
| x = random.gauss(WIDTH/2.0, SIGMA) |
| y = random.gauss(HEIGHT/2.0, SIGMA) |
| p = canvas.create_oval(x-r, y-r, x+r, y+r, fill=FILL) |
| while not stop: |
| dx = random.gauss(0, BUZZ) |
| dy = random.gauss(0, BUZZ) |
| try: |
| canvas.move(p, dx, dy) |
| except TclError: |
| break |
| else: |
| yield None |
| |
| def move(particle): # move the particle at random time |
| next(particle) |
| dt = random.expovariate(LAMBDA) |
| root.after(int(dt*1000), move, particle) |
| |
| def main(): |
| global root, stop |
| root = Tk() |
| canvas = Canvas(root, width=WIDTH, height=HEIGHT) |
| canvas.pack(fill='both', expand=1) |
| np = 30 |
| if sys.argv[1:]: |
| np = int(sys.argv[1]) |
| for i in range(np): # start the dance |
| move(particle(canvas)) |
| try: |
| root.mainloop() |
| finally: |
| stop = 1 |
| |
| if __name__ == '__main__': |
| main() |