def cv(data, target, multivariant=False):
X_train, X_test, Y_train, Y_test = cross_validation.train_test_split(
data, target, test_size=0.2, random_state=0)
if multivariant is False:
linear_regression(X_train, X_test, Y_train, Y_test, plot=False)
else:
linear_regression_multivariant(X_train,
X_test,
Y_train,
Y_test,
cost_fun='Ridge_Regression')
normalize = True
corpus = load_corpus(get_file_path('cn_corpus'))
lexicon = load_lexicon(get_file_path('normalized_onezero_lexicon'))
mark = load_mark(get_file_path('normalized_onezero_mark'))
# # the following could use to check the same words in corpus and lexicon
# from visualization import show_common_term
# show_common_term(corpus, lexicon)
# exit()
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_sqr(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = nonlinear_max_fusion(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_tf(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_tfidf(corpus, lexicon, mark)
valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_geo(
corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_geo_tf(corpus, lexicon, mark)
logger.info(r"running %s" % ''.join(sys.argv))
corpus_name = get_file_path('cn_corpus')
logger.info(r"loading corpus from : " + corpus_name)
lexicon_name = get_file_path('lexicon')
logger.info(r"loading lexicon form : " + lexicon_name)
expand_name = get_file_path('neural_cand')
logger.info(r"loading expand_word from : " + expand_name)
mark_name = get_file_path('mark')
logger.info(r"loading mark from : " + mark_name)
corpus = load_corpus(corpus_name)
lexicon = load_lexicon(lexicon_name)
mark = load_mark(mark_name)
# log_state('use extend lexicon')
lexicon = combine_lexicon(lexicon_name, expand_name)
log_state('mean')
evaluate_mean(corpus, lexicon, mark)
log_state('tf_mean')
evaluate_tf_mean(corpus, lexicon, mark)
log_state('tfidf_mean')
evaluate_tfidf_mean(corpus, lexicon, mark)
log_state('geo')
evaluate_geo(corpus, lexicon, mark)
log_state('tfidf_geo')
evaluate_tfidf_geo(corpus, lexicon, mark)
from regression import linear_regression, linear_regression_multivariant
from positive_negative_split import get_pos_neg_va
def cv(data, target, multivariant=False):
X_train, X_test, Y_train, Y_test = cross_validation.train_test_split(data, target, test_size=0.2,
random_state=0)
if multivariant is False:
linear_regression(X_train, X_test, Y_train, Y_test, plot=False)
else:
linear_regression_multivariant(X_train, X_test, Y_train, Y_test, cost_fun='Ridge_Regression')
normalize = True
corpus = load_corpus(get_file_path('cn_corpus'))
lexicon = load_lexicon(get_file_path('normalized_onezero_lexicon'))
mark = load_mark(get_file_path('normalized_onezero_mark'))
# # the following could use to check the same words in corpus and lexicon
# from visualization import show_common_term
# show_common_term(corpus, lexicon)
# exit()
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_sqr(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = nonlinear_max_fusion(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_tf(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_tfidf(corpus, lexicon, mark)
valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_geo(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_geo_tf(corpus, lexicon, mark)
# valence_mean, valence_true, arousal_mean, arousal_true = linear_fusion_geo_tfidf(corpus, lexicon, mark)
logger.info(r"running %s" % ''.join(sys.argv))
corpus_name = get_file_path('cn_corpus')
logger.info(r"loading corpus from : " + corpus_name)
lexicon_name = get_file_path('lexicon')
logger.info(r"loading lexicon form : " + lexicon_name)
expand_name = get_file_path('neural_cand')
logger.info(r"loading expand_word from : " + expand_name)
mark_name = get_file_path('mark')
logger.info(r"loading mark from : " + mark_name)
corpus = load_corpus(corpus_name)
lexicon = load_lexicon(lexicon_name)
mark = load_mark(mark_name)
# log_state('use extend lexicon')
lexicon = combine_lexicon(lexicon_name, expand_name)
log_state('mean')
evaluate_mean(corpus, lexicon, mark)
log_state('tf_mean')
evaluate_tf_mean(corpus, lexicon, mark)
log_state('tfidf_mean')
evaluate_tfidf_mean(corpus, lexicon, mark)
log_state('geo')
evaluate_geo(corpus, lexicon, mark)
log_state('tfidf_geo')
evaluate_tfidf_geo(corpus, lexicon, mark)
__author__ = "NLP-PC"
# coding: utf-8
import goslate
from load_data import load_lexicon
from file_name import get_file_path
from load_data import load_anew
import os
os.chdir("..")
print(load_lexicon(get_file_path("lexicon")))
words, valence, arousal = load_anew(get_file_path("anew"))
gs = goslate.Goslate()
for tw_text in gs.translate(words, "zh-tw"):
print(tw_text)
print(gs.translate("Hi", "zh-TW"))
# You could get all supported language list through get_languages
languages = gs.get_languages()
print(languages["zh-TW"])
return result
def scaling_onezero(num_list):
# Note: the type of the parameter is np.array
# Function: To normalize data
result = []
for num in num_list:
result.append(num / 9)
return result
if __name__ == '__main__':
from load_data import load_lexicon
from load_data import load_mark
from file_name import get_file_path
from save_data import save_csv
lexicon = load_lexicon(get_file_path('lexicon'))
mark = load_mark(get_file_path('mark'))
lexicon = np.array(lexicon)
mark = np.array(mark)
#####################################
lexicon[:, 1] = scaling_onezero(np.array(lexicon[:, 1], dtype=float))
lexicon[:, 2] = scaling_onezero(np.array(lexicon[:, 2], dtype=float))
mark[:, 1] = scaling_onezero(np.array(mark[:, 1], dtype=float))
mark[:, 2] = scaling_onezero(np.array(mark[:, 2], dtype=float))
######################################
save_csv(lexicon, get_file_path('normalized_onezero_lexicon'))
save_csv(mark, get_file_path('normalized_onezero_mark'))
__author__ = 'NLP-PC'
# coding: utf-8
import goslate
from load_data import load_lexicon
from file_name import get_file_path
from load_data import load_anew
import os
os.chdir('..')
print(load_lexicon(get_file_path('lexicon')))
words, valence, arousal = load_anew(get_file_path('anew'))
gs = goslate.Goslate()
for tw_text in gs.translate(words, 'zh-tw'):
print(tw_text)
print(gs.translate('Hi', 'zh-TW'))
# You could get all supported language list through get_languages
languages = gs.get_languages()
print(languages['zh-TW'])
