def test_lemmatized_unigrams(corpus, labels, vocabulary_src,
with_stopwords_removal, use_chi_features):
import thread
from lemmatizing_tokenizer import LemmaTokenizer
from clef_globals import *
from clef_vocabulary_loader import load_vocabulary
max_ngram_size = 1
tokenizer = LemmaTokenizer()
if with_stopwords_removal == False:
stopwords_pattern = ''
else:
stopwords_pattern = '_stopwords'
if use_chi_features == False:
chi_features_pattern = ''
else:
chi_features_pattern = '_chi'
# load vocabulary
vocabulary_tbl_name = 'clef_2010_{0}_lemmas{1}_unigrams{2}_df{3}_tf{4}'.format(
vocabulary_src, chi_features_pattern, stopwords_pattern, min_df,
min_tf)
vocabulary = load_vocabulary(vocabulary_tbl_name)
# generate tfidf vectors
corpus_tfidf_vectors = vectorize_corpus(corpus, tokenizer, vocabulary,
max_ngram_size)
# classify & evaluate
classify(labels, corpus_tfidf_vectors, test_set_size, max_labels, 0.5)
for i in range(0, 101):
#thread.start_new_thread(classify, (labels,corpus_tfidf_vectors,test_set_size,max_labels,i/100.0))
classify(labels, corpus_tfidf_vectors, test_set_size, max_labels,
i / 100.0)
def build_lemmatized_bigrams_stopwords_vocabulary(corpus,stop_words,vocabulary_src):
from clef_globals import min_df, min_tf
from lemmatizing_tokenizer import LemmaTokenizer
tokenizer = LemmaTokenizer()
max_ngram_size = 2
vocabulary = build_vocabulary(corpus,tokenizer,stop_words,max_ngram_size,min_df,min_tf)
# save to DB
tbl_name = 'clef_2010_{0}_lemmas_bigrams_stopwords_df{1}_tf{2}'.format(vocabulary_src,min_df,min_tf)
save_vocabulary(vocabulary,tbl_name)
print 'done '+tbl_name
def test_lemmatized_bigrams_with_LSA(corpus_train_data,corpus_test_data,vocabulary_src,with_stopwords_removal,use_chi_features,use_raw_tokens,num_components):
from lemmatizing_tokenizer import LemmaTokenizer
from lemmatizing_tokenizer import RawLemmaTokenizer
from reuters_globals import *
from reuters_vocabulary_loader import load_vocabulary
from sklearn.decomposition import TruncatedSVD
from scipy import sparse
import numpy
max_ngram_size = 2
if with_stopwords_removal==False:
stopwords_pattern = ''
else:
stopwords_pattern = '_stopwords'
if use_chi_features==False:
chi_features_pattern = ''
else:
chi_features_pattern = '_chi'
if use_raw_tokens==False:
raw_tokens_pattern = ''
tokenizer = LemmaTokenizer()
else:
raw_tokens_pattern = '_raw'
tokenizer = RawLemmaTokenizer()
# load vocabulary
vocabulary_tbl_name = 'reuters21578_{0}{1}_lemmas{2}_bigrams{3}_df{4}_tf{5}'.format(vocabulary_src,raw_tokens_pattern,chi_features_pattern,stopwords_pattern,min_df,min_tf)
vocabulary = load_vocabulary(vocabulary_tbl_name)
# generate tfidf vectors
corpus_train_tfidf_vectors = vectorize_corpus(corpus_train_data['corpus'],tokenizer,vocabulary,max_ngram_size)
corpus_test_tfidf_vectors = vectorize_corpus(corpus_test_data['corpus'],tokenizer,vocabulary,max_ngram_size)
# apply LSA
#print numpy.max(corpus_train_tfidf_vectors)
#print numpy.min(corpus_train_tfidf_vectors)
lsa = TruncatedSVD(n_components=num_components)
lsa.fit(corpus_train_tfidf_vectors)
#corpus_train_tfidf_vectors = numpy.dot(corpus_train_tfidf_vectors,pca.components_.transpose())
corpus_train_tfidf_vectors = lsa.transform(corpus_train_tfidf_vectors)
corpus_test_tfidf_vectors = lsa.transform(corpus_test_tfidf_vectors)
# classify & evaluate
results = classify(corpus_train_tfidf_vectors,corpus_train_data['labels'],
corpus_test_tfidf_vectors,corpus_test_data['labels'],
test_set_size,max_labels)
print 'LSA ^' , vocabulary_tbl_name,' --> ','precision ',results['precision'],'recall ',results['recall'],'f1 ',results['f1']
def test_lemmatized_wiktionary_bigrams(corpus_train_data,corpus_test_data,vocabulary_src,with_stopwords_removal,use_chi_features,use_raw_tokens):
from lemmatizing_tokenizer import LemmaTokenizer
from lemmatizing_tokenizer import RawLemmaTokenizer
from reuters_globals import *
from reuters_vocabulary_loader import load_common_vocabulary
max_ngram_size = 2
if with_stopwords_removal==False:
stopwords_pattern = ''
else:
stopwords_pattern = '_stopwords'
if use_chi_features==False:
chi_features_pattern = ''
else:
chi_features_pattern = '_chi'
if use_raw_tokens==False:
raw_tokens_pattern = ''
tokenizer = LemmaTokenizer()
else:
raw_tokens_pattern = '_raw'
tokenizer = RawLemmaTokenizer()
# load vocabulary
vocabulary_tbl_name1 = 'reuters21578_{0}{1}_lemmas{2}_unigrams{3}_df{4}_tf{5}'.format(vocabulary_src,raw_tokens_pattern,chi_features_pattern,stopwords_pattern,min_df,min_tf)
vocabulary_tbl_name2 = 'reuters21578_{0}{1}_lemmas_bigrams{3}_df{4}_tf{5}'.format(vocabulary_src,raw_tokens_pattern,chi_features_pattern,stopwords_pattern,min_df,min_tf)
vocabulary_tbl_intersect = 'wiktionary_bigrams'
vocabulary = load_common_vocabulary(vocabulary_tbl_name1,vocabulary_tbl_name2,vocabulary_tbl_intersect,'lemma')
print 'done loading vocabulary'
# generate tfidf vectors
corpus_train_tfidf_vectors = vectorize_corpus(corpus_train_data['corpus'],tokenizer,vocabulary,max_ngram_size)
corpus_test_tfidf_vectors = vectorize_corpus(corpus_test_data['corpus'],tokenizer,vocabulary,max_ngram_size)
# classify & evaluate
results = classify(corpus_train_tfidf_vectors,corpus_train_data['labels'],
corpus_test_tfidf_vectors,corpus_test_data['labels'],
test_set_size,max_labels)
print vocabulary_tbl_name1,'^',vocabulary_tbl_name2,'^',vocabulary_tbl_intersect,' --> ','precision ',results['precision'],'recall ',results['recall'],'f1 ',results['f1']
def build_lemmatized_bigrams_stopwords_vocabulary(corpus, labels, stop_words,
vocabulary_src):
from clef_globals import *
from clef_vocabulary_loader import load_vocabulary
from lemmatizing_tokenizer import LemmaTokenizer
tokenizer = LemmaTokenizer()
max_ngram_size = 2
# load initial vocabulary
initial_vocabulary_tbl_name = 'clef_2010_{0}_lemmas_bigrams_stopwords_df{1}_tf{2}'.format(
vocabulary_src, min_df, min_tf)
initial_vocabulary = load_vocabulary(initial_vocabulary_tbl_name)
vocabulary = build_chi_vocabulary(corpus, labels, initial_vocabulary,
tokenizer, stop_words, max_ngram_size,
min_df, min_tf)
# save to DB
tbl_name = 'clef_2010_{0}_lemmas_chi_bigrams_stopwords_df{1}_tf{2}'.format(
vocabulary_src, min_df, min_tf)
save_vocabulary(vocabulary, tbl_name)
print 'done ' + tbl_name
def test_lemmatized_unigrams(corpus_train_data,corpus_test_data,vocabulary_src,with_stopwords_removal,use_chi_features,use_raw_tokens):
from lemmatizing_tokenizer import LemmaTokenizer
from lemmatizing_tokenizer import RawLemmaTokenizer
from clef_globals import *
from clef_vocabulary_loader import load_vocabulary
max_ngram_size = 1
if with_stopwords_removal==False:
stopwords_pattern = ''
else:
stopwords_pattern = '_stopwords'
if use_chi_features==False:
chi_features_pattern = ''
else:
chi_features_pattern = '_chi'
if use_raw_tokens==False:
raw_tokens_pattern = ''
tokenizer = LemmaTokenizer()
else:
raw_tokens_pattern = '_raw'
tokenizer = RawLemmaTokenizer()
# load vocabulary
vocabulary_tbl_name = 'clef_2010_{0}{1}_lemmas{2}_unigrams{3}_df{4}_tf{5}'.format(vocabulary_src,raw_tokens_pattern,chi_features_pattern,stopwords_pattern,min_df,min_tf)
vocabulary = load_vocabulary(vocabulary_tbl_name)
# generate tfidf vectors
corpus_train_tfidf_vectors = vectorize_corpus(corpus_train_data['corpus'],tokenizer,vocabulary,max_ngram_size)
corpus_test_tfidf_vectors = vectorize_corpus(corpus_test_data['corpus'],tokenizer,vocabulary,max_ngram_size)
# classify & evaluate
# classify & evaluate
for i in range(40,56):
classify(corpus_train_tfidf_vectors,corpus_train_data['labels'],
corpus_test_tfidf_vectors,corpus_test_data['labels'],
test_set_size,max_labels,
i/100.0)
