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nlp feature

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This commit is contained in:
Vijay Yadev
2020-11-13 01:03:23 -05:00
parent 920a7633cd
commit dae5eb3cd4
7 changed files with 264 additions and 7 deletions
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146
dbm_lib/dbm_features/raw_features/util/nlp_util.py
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@@ -11,6 +11,11 @@ import pandas as pd
import os
import logging
import nltk
import re
from lexicalrichness import LexicalRichness
from vaderSentiment.vaderSentiment import SentimentIntensityAnalyzer
logging.basicConfig(level=logging.INFO)
logger=logging.getLogger()
@@ -64,3 +69,144 @@ def process_deepspeech(audio_file,deep_path):
deep_text= deep_speech_output_clean(deep_output)
return deep_text
def nltk_download():
try:
nltk.data.find('tokenizers/punkt')
except LookupError:
logger.info('punkt is not available')
nltk.download('punkt')
try:
nltk.data.find('averaged_perceptron_tagger')
except LookupError:
logger.info('averaged_perceptron_tagger is not available')
nltk.download('averaged_perceptron_tagger')
def empty_speech(r_config, master_url, error_txt):
"""
Preparing empty speech matrix with error
Args:
r_config: raw config file object
error_txt: Error message during transcription
Returns:
Empty dataframe for speech features with error
"""
col = [r_config.nlp_numSentences, r_config.nlp_singPronPerAns, r_config.nlp_singPronPerSen, r_config.nlp_pastTensePerAns,
r_config.nlp_pastTensePerSen, r_config.nlp_pronounsPerAns, r_config.nlp_pronounsPerSen, r_config.nlp_verbsPerAns,
r_config.nlp_verbsPerSen, r_config.nlp_adjectivesPerAns, r_config.nlp_adjectivesPerSen, r_config.nlp_nounsPerAns,
r_config.nlp_nounsPerSen, r_config.nlp_sentiment_mean, r_config.nlp_mattr, r_config.nlp_wordsPerMin,
r_config.nlp_totalTime, r_config.err_reason]
df_speech = pd.DataFrame([[np.nan] * len(col) + [error_txt]], columns = col)
df_speech['dbm_master_url'] = master_url
return df_speech
def divide_var(speech_var1, spech_var2):
"""
divide variables
"""
speech_var = np.nan
if spech_var2!=0:
speech_var = speech_var1/spech_var2
return speech_var
def process_speech(transcribe_df,r_config):
"""
Preparing speech features
Args:
transcribe_df: Transcribed dataframe
r_config: raw config file object
Returns:
Dataframe for speech features
"""
err_transcribe = transcribe_df[r_config.err_reason].iloc[0]
transcribe = transcribe_df[r_config.nlp_transcribe].iloc[0]
total_time = transcribe_df[r_config.nlp_totalTime].iloc[0]
master_url = transcribe_df['dbm_master_url'].iloc[0]
#clean transcribe
transcribe = transcribe.replace(",", "")
transcribe = " ".join(re.findall(r"[\w']+|[.!?]", transcribe))
if err_transcribe != 'Pass':
df_speech = empty_speech(r_config, master_url, error_txt)
return df_speech
speech_dict = {}
nltk_download()
sentences = nltk.tokenize.sent_tokenize(transcribe)
words_all = nltk.tokenize.word_tokenize(transcribe)
num_sentences = len(sentences)
speech_dict[r_config.nlp_numSentences] = num_sentences
#nlp_singPron
i_s = transcribe.count('I')
me_s = transcribe.count('me')
my_s = transcribe.count('my')
sing_count = i_s + me_s + my_s
speech_dict[r_config.nlp_singPronPerAns] = sing_count if len(words_all)>0 else np.nan
speech_dict[r_config.nlp_singPronPerSen] = divide_var(speech_dict[r_config.nlp_singPronPerAns], num_sentences)
tagged = nltk.pos_tag(transcribe.split())
tagged_df = pd.DataFrame(tagged, columns=['word', 'pos_tag'])
#Past tense per answer
all_POSs = tagged_df['pos_tag'].tolist()
speech_dict[r_config.nlp_pastTensePerAns] = all_POSs.count('VBD') if len(words_all)>0 else np.nan
speech_dict[r_config.nlp_pastTensePerSen] = divide_var(speech_dict[r_config.nlp_pastTensePerAns], num_sentences)
#Pronoun per answer
pronounsPerAns = all_POSs.count('PRP') + all_POSs.count('PRP$')
speech_dict[r_config.nlp_pronounsPerAns] = pronounsPerAns if len(words_all)>0 else np.nan
speech_dict[r_config.nlp_pronounsPerSen] = divide_var(speech_dict[r_config.nlp_pronounsPerAns], num_sentences)
#Verb per answer
verbPerAns = all_POSs.count('VB') + all_POSs.count('VBD') + all_POSs.count('VBG') \
+ all_POSs.count('VBN') + all_POSs.count('VBP') + all_POSs.count('VBZ')
speech_dict[r_config.nlp_verbsPerAns] = verbPerAns if len(words_all) > 0 else np.nan
speech_dict[r_config.nlp_verbsPerSen] = divide_var(speech_dict[r_config.nlp_verbsPerAns], num_sentences)
#Adjective per answer
adjectivesAns = all_POSs.count('JJ') + all_POSs.count('JJR') + all_POSs.count('JJS')
speech_dict[r_config.nlp_adjectivesPerAns] = adjectivesAns if len(words_all) > 0 else np.nan
speech_dict[r_config.nlp_adjectivesPerSen] = divide_var(speech_dict[r_config.nlp_adjectivesPerAns], num_sentences)
#Noun per answer
nounsAns = all_POSs.count('NN') + all_POSs.count('NNP') + all_POSs.count('NNS')
speech_dict[r_config.nlp_nounsPerAns] = nounsAns if len(words_all) > 0 else np.nan
speech_dict[r_config.nlp_nounsPerSen] = divide_var(speech_dict[r_config.nlp_nounsPerAns], num_sentences)
#Sentiment analysis
vader = SentimentIntensityAnalyzer()
sentence_valences = []
for s in sentences:
sentiment_dict = vader.polarity_scores(s)
sentence_valences.append(sentiment_dict['compound'])
speech_dict[r_config.nlp_sentiment_mean] = np.mean(sentence_valences) if len(sentence_valences) > 0 else np.nan
non_punc = list(value for value in words_all if value not in ['.','!','?'])
non_punc_as_str = " ".join(str(non_punc))
lex = LexicalRichness(non_punc_as_str)
speech_dict[r_config.nlp_mattr] = lex.mattr(window_size=lex.words) if lex.words > 0 else np.nan
#Number of words per minute
speech_dict[r_config.nlp_wordsPerMin] = divide_var(len(non_punc), total_time)*60
speech_dict[r_config.nlp_totalTime] = total_time
speech_dict['dbm_master_url'] = master_url
df_speech = pd.DataFrame([speech_dict])
return df_speech