Mercurial > public > think_complexity
view TMDrawer.py @ 47:2b0e229e163c
Chapter 7, exercise 2. R-Pentomino game of life.
author | Brian Neal <bgneal@gmail.com> |
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date | Thu, 25 Jul 2013 21:53:44 -0500 |
parents | 1804f09a7adb |
children |
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"""Chapter 6, exercise 4 in Allen Downey's Think Complexity book. The goal of this exercise is to implement a Turing machine. See http://en.wikipedia.org/wiki/Turing_machine. 4. Write a class named TMDrawer that generates an image that represents the state of the tape and the position and state of the head. For one example of what that might look like, see http://mathworld.wolfram.com/TuringMachine.html. """ import matplotlib.pyplot as pyplot import numpy from CADrawer import Drawer class TMDrawer(Drawer): """Implementation of Drawer using matplotlib for Turing Machines. We visualize the tape and machine head/state by drawing the tape state as a row, then adding a row underneath that for the head & state. The tape head is drawn as a solid square whose color represents the state. """ def __init__(self, tape_colors, state_colors, cmap=None): self.tape_colors = tape_colors self.state_colors = state_colors self.cmap = cmap if cmap else 'spectral' def draw(self, tm, start=0, end=None): """Draws the TM using pyplot.pcolor.""" tape = tm.get_array(start, end) rows, cols = tape.shape # create a new array that has twice as many rows steps = rows rows *= 2 a = numpy.zeros((rows, cols), dtype=numpy.int8) # copy the tape state into the array at every other row for i in xrange(steps): for j in xrange(cols): #a[n, j] = self.tape_colors[tape[i, j]] c = self.tape_colors[tape[i, j]] a[i * 2, j] = c # copy the head position & state into every other row n = 1 for pos, state in tm.history: a[n, pos] = self.state_colors[state] n += 2 # flipud puts the first row at the top; pyplot.pcolor(numpy.flipud(a), cmap=self.cmap) pyplot.axis([0, cols, 0, rows]) pyplot.colorbar() # empty lists draw no ticks pyplot.xticks([]) pyplot.yticks([]) def show(self): """display the pseudocolor representation of the CA""" pyplot.show() def save(self, filename='tm.png'): """save the pseudocolor representation of the TM in (filename).""" pyplot.savefig(filename)