From: Neil Smith Date: Sun, 19 Jan 2014 20:51:20 +0000 (+0000) Subject: Deleted old copy of 'find caesar break params' X-Git-Url: https://git.njae.me.uk/?a=commitdiff_plain;h=382cdeb6aee9e799db696d84455b447e3cad778b;p=cipher-tools.git Deleted old copy of 'find caesar break params' --- diff --git a/find_best_caesar_break_parameters-2.py b/find_best_caesar_break_parameters-2.py deleted file mode 100644 index 88de1dc..0000000 --- a/find_best_caesar_break_parameters-2.py +++ /dev/null @@ -1,65 +0,0 @@ -import random -import collections -from cipher import * -from cipherbreak import * -import itertools - -corpus = sanitise(''.join([open('shakespeare.txt', 'r').read(), - open('sherlock-holmes.txt', 'r').read(), - open('war-and-peace.txt', 'r').read()])) -corpus_length = len(corpus) - -euclidean_scaled_english_counts = norms.euclidean_scale(english_counts) - -metrics = [{'func': norms.l1, 'name': 'l1'}, - {'func': norms.l2, 'name': 'l2'}, - {'func': norms.l3, 'name': 'l3'}, - {'func': norms.cosine_distance, 'name': 'cosine_distance'}, - {'func': norms.harmonic_mean, 'name': 'harmonic_mean'}, - {'func': norms.geometric_mean, 'name': 'geometric_mean'}, - {'func': norms.inverse_log_pl, 'name': 'inverse_log_pl'}] -scalings = [{'corpus_frequency': normalised_english_counts, - 'scaling': norms.normalise, - 'name': 'normalised'}, - {'corpus_frequency': euclidean_scaled_english_counts, - 'scaling': norms.euclidean_scale, - 'name': 'euclidean_scaled'}, - {'corpus_frequency': normalised_english_counts, - 'scaling': norms.identity_scale, - 'name': 'normalised_with_identity'}] -message_lengths = [300, 100, 50, 30, 20, 10, 5] - -trials = 5000 - -scores = collections.defaultdict(int) - -def eval_all(): - list(itertools.starmap(eval_one_parameter_set, - itertools.product(metrics, scalings, message_lengths))) - -def eval_one_parameter_set(metric, scaling, message_length): - for i in range(trials): - sample_start = random.randint(0, corpus_length - message_length) - sample = corpus[sample_start:(sample_start + message_length)] - key = random.randint(1, 25) - sample_ciphertext = caesar_encipher(sample, key) - (found_key, score) = caesar_break(sample_ciphertext, - metric=metric['func'], - target_counts=scaling['corpus_frequency'], - message_frequency_scaling=scaling['scaling']) - if found_key == key: - scores[(metric['name'], scaling['name'], message_length)] += 1 - return scores[(metric['name'], scaling['name'], message_length)] - -def show_results(): - with open('caesar_break_parameter_trials.csv', 'w') as f: - print(',message_length', file = f) - print('metric+scaling,', ','.join([str(l) for l in message_lengths]), file = f) - for (metric, scaling) in itertools.product(metrics, scalings): - print('{}:{}'.format(metric['name'], scaling['name']), end='', file=f) - for l in message_lengths: - print(',', scores[(metric['name'], scaling['name'], l)] / trials, end='', file=f) - print('', file = f) - -eval_all() -show_results() diff --git a/find_best_caesar_break_parameters.py b/find_best_caesar_break_parameters.py index 16f3bfa..88de1dc 100644 --- a/find_best_caesar_break_parameters.py +++ b/find_best_caesar_break_parameters.py @@ -2,6 +2,7 @@ import random import collections from cipher import * from cipherbreak import * +import itertools corpus = sanitise(''.join([open('shakespeare.txt', 'r').read(), open('sherlock-holmes.txt', 'r').read(), @@ -32,25 +33,33 @@ trials = 5000 scores = collections.defaultdict(int) -with open('caesar_break_parameter_trials.csv', 'w') as f: - print('metric,scaling,message_length,score', file = f) - for metric in metrics: - for scaling in scalings: - for message_length in message_lengths: - for i in range(trials): - sample_start = random.randint(0, corpus_length - message_length) - sample = corpus[sample_start:(sample_start + message_length)] - key = random.randint(1, 25) - sample_ciphertext = caesar_encipher(sample, key) - (found_key, score) = caesar_break(sample_ciphertext, - metric=metric['func'], - target_counts=scaling['corpus_frequency'], - message_frequency_scaling=scaling['scaling']) - if found_key == key: - scores[(metric['name'], scaling['name'], message_length)] += 1 - print(', '.join([metric['name'], - scaling['name'], - str(message_length), - str(scores[(metric['name'], scaling['name'], message_length)] / trials) ]), - file = f) -print() +def eval_all(): + list(itertools.starmap(eval_one_parameter_set, + itertools.product(metrics, scalings, message_lengths))) + +def eval_one_parameter_set(metric, scaling, message_length): + for i in range(trials): + sample_start = random.randint(0, corpus_length - message_length) + sample = corpus[sample_start:(sample_start + message_length)] + key = random.randint(1, 25) + sample_ciphertext = caesar_encipher(sample, key) + (found_key, score) = caesar_break(sample_ciphertext, + metric=metric['func'], + target_counts=scaling['corpus_frequency'], + message_frequency_scaling=scaling['scaling']) + if found_key == key: + scores[(metric['name'], scaling['name'], message_length)] += 1 + return scores[(metric['name'], scaling['name'], message_length)] + +def show_results(): + with open('caesar_break_parameter_trials.csv', 'w') as f: + print(',message_length', file = f) + print('metric+scaling,', ','.join([str(l) for l in message_lengths]), file = f) + for (metric, scaling) in itertools.product(metrics, scalings): + print('{}:{}'.format(metric['name'], scaling['name']), end='', file=f) + for l in message_lengths: + print(',', scores[(metric['name'], scaling['name'], l)] / trials, end='', file=f) + print('', file = f) + +eval_all() +show_results()