#!/usr/bin/env python3 """ Implementation of entropy of information https://en.wikipedia.org/wiki/Entropy_(information_theory) """ from __future__ import annotations import math from collections import Counter from string import ascii_lowercase def calculate_prob(text: str) -> None: """ This method takes path and two dict as argument and than calculates entropy of them. :param dict: :param dict: :return: Prints 1) Entropy of information based on 1 alphabet 2) Entropy of information based on couples of 2 alphabet 3) print Entropy of H(X n∣Xn−1) Text from random books. Also, random quotes. >>> text = ("Behind Winston’s back the voice " ... "from the telescreen was still " ... "babbling and the overfulfilment") >>> calculate_prob(text) 4.0 6.0 2.0 >>> text = ("The Ministry of Truth—Minitrue, in Newspeak [Newspeak was the official" ... "face in elegant lettering, the three") >>> calculate_prob(text) 4.0 5.0 1.0 >>> text = ("Had repulsive dashwoods suspicion sincerity but advantage now him. " ... "Remark easily garret nor nay. Civil those mrs enjoy shy fat merry. " ... "You greatest jointure saw horrible. He private he on be imagine " ... "suppose. Fertile beloved evident through no service elderly is. Blind " ... "there if every no so at. Own neglected you preferred way sincerity " ... "delivered his attempted. To of message cottage windows do besides " ... "against uncivil. Delightful unreserved impossible few estimating " ... "men favourable see entreaties. She propriety immediate was improving. " ... "He or entrance humoured likewise moderate. Much nor game son say " ... "feel. Fat make met can must form into gate. Me we offending prevailed " ... "discovery.") >>> calculate_prob(text) 4.0 7.0 3.0 """ single_char_strings, two_char_strings = analyze_text(text) my_alphas = list(" " + ascii_lowercase) # what is our total sum of probabilities. all_sum = sum(single_char_strings.values()) # one length string my_fir_sum = 0 # for each alpha we go in our dict and if it is in it we calculate entropy for ch in my_alphas: if ch in single_char_strings: my_str = single_char_strings[ch] prob = my_str / all_sum my_fir_sum += prob * math.log2(prob) # entropy formula. # print entropy print(f"{round(-1 * my_fir_sum):.1f}") # two len string all_sum = sum(two_char_strings.values()) my_sec_sum = 0 # for each alpha (two in size) calculate entropy. for ch0 in my_alphas: for ch1 in my_alphas: sequence = ch0 + ch1 if sequence in two_char_strings: my_str = two_char_strings[sequence] prob = int(my_str) / all_sum my_sec_sum += prob * math.log2(prob) # print second entropy print(f"{round(-1 * my_sec_sum):.1f}") # print the difference between them print(f"{round((-1 * my_sec_sum) - (-1 * my_fir_sum)):.1f}") def analyze_text(text: str) -> tuple[dict, dict]: """ Convert text input into two dicts of counts. The first dictionary stores the frequency of single character strings. The second dictionary stores the frequency of two character strings. """ single_char_strings = Counter() # type: ignore[var-annotated] two_char_strings = Counter() # type: ignore[var-annotated] single_char_strings[text[-1]] += 1 # first case when we have space at start. two_char_strings[" " + text[0]] += 1 for i in range(len(text) - 1): single_char_strings[text[i]] += 1 two_char_strings[text[i : i + 2]] += 1 return single_char_strings, two_char_strings def main(): import doctest doctest.testmod() # text = ( # "Had repulsive dashwoods suspicion sincerity but advantage now him. Remark " # "easily garret nor nay. Civil those mrs enjoy shy fat merry. You greatest " # "jointure saw horrible. He private he on be imagine suppose. Fertile " # "beloved evident through no service elderly is. Blind there if every no so " # "at. Own neglected you preferred way sincerity delivered his attempted. To " # "of message cottage windows do besides against uncivil. Delightful " # "unreserved impossible few estimating men favourable see entreaties. She " # "propriety immediate was improving. He or entrance humoured likewise " # "moderate. Much nor game son say feel. Fat make met can must form into " # "gate. Me we offending prevailed discovery. " # ) # calculate_prob(text) if __name__ == "__main__": main()