From: Neil Smith Date: Thu, 17 Oct 2013 20:19:23 +0000 (+0100) Subject: Word segmentation not working, but it's now late... X-Git-Url: https://git.njae.me.uk/?a=commitdiff_plain;h=5010cde507d2b6b25ee549efd3dec8d663937e15;hp=036f003c7d2cfc6a0b91ab1065fc4232fe40e77e;p=cipher-tools.git Word segmentation not working, but it's now late... --- diff --git a/cipher.py b/cipher.py index 07b5392..6de2682 100644 --- a/cipher.py +++ b/cipher.py @@ -316,8 +316,8 @@ def affine_break(message, metric=norms.euclidean_distance, target_frequencies=no def keyword_break(message, wordlist=keywords, metric=norms.euclidean_distance, target_frequencies=normalised_english_counts, message_frequency_scaling=norms.normalise): """Breaks a keyword substitution cipher using a dictionary and frequency analysis - >>> keyword_break(keyword_encipher('this is a test message for the keyword decipherment', 'elephant', True)) - (('elephant', True), 0.41643991598441...) # doctest: +ELLIPSIS + >>> keyword_break(keyword_encipher('this is a test message for the keyword decipherment', 'elephant', True), wordlist=['cat', 'elephant', 'kangaroo']) # doctest: +ELLIPSIS + (('elephant', True), 0.41643991598441...) """ best_keyword = '' best_wrap_alphabet = True diff --git a/segment.py b/segment.py index f90af1d..e4b0d8b 100644 --- a/segment.py +++ b/segment.py @@ -15,40 +15,50 @@ def memo(f): @memo def segment(text): - "Return a list of words that is the best segmentation of text." + """Return a list of words that is the best segmentation of text. + """ if not text: return [] candidates = ([first]+segment(rem) for first,rem in splits(text)) return max(candidates, key=Pwords) def splits(text, L=20): - "Return a list of all possible (first, rem) pairs, len(first)<=L." + """Return a list of all possible (first, rest) pairs, len(first)<=L. + """ return [(text[:i+1], text[i+1:]) for i in range(min(len(text), L))] def Pwords(words): - "The Naive Bayes probability of a sequence of words." - return product(Pw(w) for w in words) + """The Naive Bayes log probability of a sequence of words. + """ + return sum(Pw(w) for w in words) class Pdist(dict): - "A probability distribution estimated from counts in datafile." - def __init__(self, data=[], N=None, missingfn=None): - for key,count in data: - self[key] = self.get(key, 0) + int(count) - self.N = float(N or sum(self.itervalues())) - self.missingfn = missingfn or (lambda k, N: 1./N) + """A probability distribution estimated from counts in datafile. + Values are stored and returned as log probabilities. + """ + def __init__(self, data=[], estimate_of_missing=None): + self.total = sum([int(d[1]) for d in data]) + for key, count in data: + self[key] = log10(int(count) / self.total) + self.estimate_of_missing = estimate_of_missing or (lambda k, N: 1./N) def __call__(self, key): - if key in self: return self[key]/self.N - else: return self.missingfn(key, self.N) + if key in self: + return self[key] + else: + return self.estimate_of_missing(key, self.total) def datafile(name, sep='\t'): - "Read key,value pairs from file." - for line in file(name): - yield line.split(sep) + """Read key,value pairs from file. + """ + with open(name, 'r') as f: + for line in f: + yield line.split(sep) def avoid_long_words(key, N): - "Estimate the probability of an unknown word." - return 10./(N * 10**len(key)) + """Estimate the probability of an unknown word. + """ + return -log10((N * 10**(len(key) - 2))) N = 1024908267229 ## Number of tokens -Pw = Pdist(datafile('count_1w.txt'), N, avoid_long_words) +Pw = Pdist(datafile('count_1w.txt'), avoid_long_words)