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"""Compute statistics on the digits of pi.
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This uses precomputed digits of pi from the website
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of Professor Yasumasa Kanada at the University of
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Tokoyo: http://www.super-computing.org/
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Currently, there are only functions to read the
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.txt (non-compressed, non-binary) files, but adding
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support for compression and binary files would be
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straightforward.
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This focuses on computing the number of times that
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all 1, 2, n digits sequences occur in the digits of pi.
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If the digits of pi are truly random, these frequencies
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should be equal.
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"""
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# Import statements
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from __future__ import division, with_statement
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import numpy as np
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from matplotlib import pyplot as plt
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try : #python2
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from urllib import urlretrieve
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except : #python3
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from urllib.request import urlretrieve
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# Top-level functions
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def fetch_pi_file(filename):
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"""This will download a segment of pi from super-computing.org
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if the file is not already present.
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"""
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import os, urllib
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ftpdir="ftp://pi.super-computing.org/.2/pi200m/"
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if os.path.exists(filename):
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# we already have it
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return
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else:
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# download it
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urlretrieve(ftpdir+filename,filename)
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def compute_one_digit_freqs(filename):
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"""
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Read digits of pi from a file and compute the 1 digit frequencies.
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"""
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d = txt_file_to_digits(filename)
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freqs = one_digit_freqs(d)
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return freqs
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def compute_two_digit_freqs(filename):
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"""
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Read digits of pi from a file and compute the 2 digit frequencies.
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"""
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d = txt_file_to_digits(filename)
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freqs = two_digit_freqs(d)
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return freqs
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def reduce_freqs(freqlist):
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"""
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Add up a list of freq counts to get the total counts.
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"""
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allfreqs = np.zeros_like(freqlist[0])
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for f in freqlist:
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allfreqs += f
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return allfreqs
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def compute_n_digit_freqs(filename, n):
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"""
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Read digits of pi from a file and compute the n digit frequencies.
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"""
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d = txt_file_to_digits(filename)
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freqs = n_digit_freqs(d, n)
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return freqs
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# Read digits from a txt file
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def txt_file_to_digits(filename, the_type=str):
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"""
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Yield the digits of pi read from a .txt file.
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"""
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with open(filename, 'r') as f:
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for line in f.readlines():
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for c in line:
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if c != '\n' and c!= ' ':
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yield the_type(c)
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# Actual counting functions
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def one_digit_freqs(digits, normalize=False):
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"""
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Consume digits of pi and compute 1 digit freq. counts.
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"""
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freqs = np.zeros(10, dtype='i4')
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for d in digits:
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freqs[int(d)] += 1
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if normalize:
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freqs = freqs/freqs.sum()
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return freqs
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def two_digit_freqs(digits, normalize=False):
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"""
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Consume digits of pi and compute 2 digits freq. counts.
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"""
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freqs = np.zeros(100, dtype='i4')
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last = next(digits)
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this = next(digits)
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for d in digits:
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index = int(last + this)
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freqs[index] += 1
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last = this
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this = d
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if normalize:
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freqs = freqs/freqs.sum()
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return freqs
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def n_digit_freqs(digits, n, normalize=False):
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"""
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Consume digits of pi and compute n digits freq. counts.
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This should only be used for 1-6 digits.
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"""
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freqs = np.zeros(pow(10,n), dtype='i4')
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current = np.zeros(n, dtype=int)
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for i in range(n):
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current[i] = next(digits)
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for d in digits:
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index = int(''.join(map(str, current)))
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freqs[index] += 1
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current[0:-1] = current[1:]
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current[-1] = d
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if normalize:
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freqs = freqs/freqs.sum()
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return freqs
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# Plotting functions
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def plot_two_digit_freqs(f2):
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"""
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Plot two digits frequency counts using matplotlib.
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"""
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f2_copy = f2.copy()
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f2_copy.shape = (10,10)
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ax = plt.matshow(f2_copy)
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plt.colorbar()
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for i in range(10):
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for j in range(10):
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plt.text(i-0.2, j+0.2, str(j)+str(i))
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plt.ylabel('First digit')
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plt.xlabel('Second digit')
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return ax
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def plot_one_digit_freqs(f1):
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"""
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Plot one digit frequency counts using matplotlib.
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"""
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ax = plt.plot(f1,'bo-')
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plt.title('Single digit counts in pi')
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plt.xlabel('Digit')
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plt.ylabel('Count')
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return ax
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