upstream/ipython Files · docs/examples/newparallel/pi/pidigits.py

Lowercase SQL 'insert' for Turkish locale...

Lowercase SQL 'insert' for Turkish locale Python issue 13099 means that we can't get the last row ID after a capitalised 'INSERT' to an sqlite3 database, if the locale is set to Turkish. This should be fixed in Python 2.7.3 and 3.2.3, but in the meantime, lowercase insert should be fine.

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      """Compute statistics on the digits of pi.

      This uses precomputed digits of pi from the website

      of Professor Yasumasa Kanada at the University of 

      Tokoyo: http://www.super-computing.org/

      Currently, there are only functions to read the

      .txt (non-compressed, non-binary) files, but adding

      support for compression and binary files would be

      straightforward.

      This focuses on computing the number of times that

      all 1, 2, n digits sequences occur in the digits of pi.

      If the digits of pi are truly random, these frequencies

      should be equal.

      """

      # Import statements

      from __future__ import division, with_statement

      import numpy as np

      from matplotlib import pyplot as plt

      # Top-level functions

      def fetch_pi_file(filename):

          """This will download a segment of pi from super-computing.org

          if the file is not already present.

          """

          import os, urllib

          ftpdir="ftp://pi.super-computing.org/.2/pi200m/"

          if os.path.exists(filename):

              # we already have it

              return

          else:

              # download it

              urllib.urlretrieve(ftpdir+filename,filename)

      def compute_one_digit_freqs(filename):

          """

          Read digits of pi from a file and compute the 1 digit frequencies.

          """

          d = txt_file_to_digits(filename)

          freqs = one_digit_freqs(d)

          return freqs

      def compute_two_digit_freqs(filename):

          """

          Read digits of pi from a file and compute the 2 digit frequencies.

          """

          d = txt_file_to_digits(filename)

          freqs = two_digit_freqs(d)

          return freqs

      def reduce_freqs(freqlist):

          """

          Add up a list of freq counts to get the total counts.

          """

          allfreqs = np.zeros_like(freqlist[0])

          for f in freqlist:

              allfreqs += f

          return allfreqs

      def compute_n_digit_freqs(filename, n):

          """

          Read digits of pi from a file and compute the n digit frequencies.

          """

          d = txt_file_to_digits(filename)

          freqs = n_digit_freqs(d, n)

          return freqs

      # Read digits from a txt file

      def txt_file_to_digits(filename, the_type=str):

          """

          Yield the digits of pi read from a .txt file.

          """

          with open(filename, 'r') as f:

              for line in f.readlines():

                  for c in line:

                      if c != '\n' and c!= ' ':

                          yield the_type(c)

      # Actual counting functions                    

      def one_digit_freqs(digits, normalize=False):

          """

          Consume digits of pi and compute 1 digit freq. counts.

          """

          freqs = np.zeros(10, dtype='i4')

          for d in digits:

              freqs[int(d)] += 1

          if normalize:

              freqs = freqs/freqs.sum()

          return freqs

      def two_digit_freqs(digits, normalize=False):

          """

          Consume digits of pi and compute 2 digits freq. counts.

          """

          freqs = np.zeros(100, dtype='i4')

          last = digits.next()

          this = digits.next()

          for d in digits:

              index = int(last + this)

              freqs[index] += 1

              last = this

              this = d

          if normalize:

              freqs = freqs/freqs.sum()

          return freqs

      def n_digit_freqs(digits, n, normalize=False):

          """

          Consume digits of pi and compute n digits freq. counts.

          This should only be used for 1-6 digits.

          """

          freqs = np.zeros(pow(10,n), dtype='i4')

          current = np.zeros(n, dtype=int)

          for i in range(n):

              current[i] = digits.next()

          for d in digits:

              index = int(''.join(map(str, current)))

              freqs[index] += 1

              current[0:-1] = current[1:]

              current[-1] = d

          if normalize:

              freqs = freqs/freqs.sum()

          return freqs

      # Plotting functions

      def plot_two_digit_freqs(f2):

          """

          Plot two digits frequency counts using matplotlib.

          """

          f2_copy = f2.copy()

          f2_copy.shape = (10,10)

          ax = plt.matshow(f2_copy)

          plt.colorbar()

          for i in range(10):

              for j in range(10):

                  plt.text(i-0.2, j+0.2, str(j)+str(i))

          plt.ylabel('First digit')

          plt.xlabel('Second digit')

          return ax

      def plot_one_digit_freqs(f1):

          """

          Plot one digit frequency counts using matplotlib.

          """

          ax = plt.plot(f1,'bo-')

          plt.title('Single digit counts in pi')

          plt.xlabel('Digit')

          plt.ylabel('Count')

          return ax

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				"""Compute statistics on the digits of pi.

				This uses precomputed digits of pi from the website
				of Professor Yasumasa Kanada at the University of
				Tokoyo: http://www.super-computing.org/

				Currently, there are only functions to read the
				.txt (non-compressed, non-binary) files, but adding
				support for compression and binary files would be
				straightforward.

				This focuses on computing the number of times that
				all 1, 2, n digits sequences occur in the digits of pi.
				If the digits of pi are truly random, these frequencies
				should be equal.
				"""

				# Import statements
				from __future__ import division, with_statement

				import numpy as np
				from matplotlib import pyplot as plt

				# Top-level functions

				def fetch_pi_file(filename):
				"""This will download a segment of pi from super-computing.org
				if the file is not already present.
				"""
				import os, urllib
				ftpdir="ftp://pi.super-computing.org/.2/pi200m/"
				if os.path.exists(filename):
				# we already have it
				return
				else:
				# download it
				urllib.urlretrieve(ftpdir+filename,filename)

				def compute_one_digit_freqs(filename):
				"""
				Read digits of pi from a file and compute the 1 digit frequencies.
				"""
				d = txt_file_to_digits(filename)
				freqs = one_digit_freqs(d)
				return freqs

				def compute_two_digit_freqs(filename):
				"""
				Read digits of pi from a file and compute the 2 digit frequencies.
				"""
				d = txt_file_to_digits(filename)
				freqs = two_digit_freqs(d)
				return freqs

				def reduce_freqs(freqlist):
				"""
				Add up a list of freq counts to get the total counts.
				"""
				allfreqs = np.zeros_like(freqlist[0])
				for f in freqlist:
				allfreqs += f
				return allfreqs

				def compute_n_digit_freqs(filename, n):
				"""
				Read digits of pi from a file and compute the n digit frequencies.
				"""
				d = txt_file_to_digits(filename)
				freqs = n_digit_freqs(d, n)
				return freqs

				# Read digits from a txt file

				def txt_file_to_digits(filename, the_type=str):
				"""
				Yield the digits of pi read from a .txt file.
				"""
				with open(filename, 'r') as f:
				for line in f.readlines():
				for c in line:
				if c != '\n' and c!= ' ':
				yield the_type(c)

				# Actual counting functions

				def one_digit_freqs(digits, normalize=False):
				"""
				Consume digits of pi and compute 1 digit freq. counts.
				"""
				freqs = np.zeros(10, dtype='i4')
				for d in digits:
				freqs[int(d)] += 1
				if normalize:
				freqs = freqs/freqs.sum()
				return freqs

				def two_digit_freqs(digits, normalize=False):
				"""
				Consume digits of pi and compute 2 digits freq. counts.
				"""
				freqs = np.zeros(100, dtype='i4')
				last = digits.next()
				this = digits.next()
				for d in digits:
				index = int(last + this)
				freqs[index] += 1
				last = this
				this = d
				if normalize:
				freqs = freqs/freqs.sum()
				return freqs

				def n_digit_freqs(digits, n, normalize=False):
				"""
				Consume digits of pi and compute n digits freq. counts.

				This should only be used for 1-6 digits.
				"""
				freqs = np.zeros(pow(10,n), dtype='i4')
				current = np.zeros(n, dtype=int)
				for i in range(n):
				current[i] = digits.next()
				for d in digits:
				index = int(''.join(map(str, current)))
				freqs[index] += 1
				current[0:-1] = current[1:]
				current[-1] = d
				if normalize:
				freqs = freqs/freqs.sum()
				return freqs

				# Plotting functions

				def plot_two_digit_freqs(f2):
				"""
				Plot two digits frequency counts using matplotlib.
				"""
				f2_copy = f2.copy()
				f2_copy.shape = (10,10)
				ax = plt.matshow(f2_copy)
				plt.colorbar()
				for i in range(10):
				for j in range(10):
				plt.text(i-0.2, j+0.2, str(j)+str(i))
				plt.ylabel('First digit')
				plt.xlabel('Second digit')
				return ax

				def plot_one_digit_freqs(f1):
				"""
				Plot one digit frequency counts using matplotlib.
				"""
				ax = plt.plot(f1,'bo-')
				plt.title('Single digit counts in pi')
				plt.xlabel('Digit')
				plt.ylabel('Count')
				return ax