emotion_classification_surreynlp_2023 / pre_processing_data.py
davidlee1102
Fixes bug
f0372d1
raw
history blame
3.4 kB
import contractions
import spacy
import nltk
import pickle
import subprocess
import pandas as pd
from datetime import datetime
from nltk.corpus import stopwords
from nltk.tokenize import RegexpTokenizer
from keras_preprocessing.sequence import pad_sequences
nltk.download('punkt')
nltk.download('wordnet')
nltk.download('omw-1.4')
nltk.download('stopwords')
nltk.download('averaged_perceptron_tagger')
model_url = "https://huggingface.co/spacy/en_core_web_sm/resolve/main/en_core_web_sm-any-py3-none-any.whl"
subprocess.run(["pip", "install", model_url])
nlp = spacy.load("en_core_web_sm")
stop_words = set(stopwords.words('english'))
def text_transform(string_text):
with open('model/tokenizer.pickle', 'rb') as handle:
loaded_tokenizer = pickle.load(handle)
string_text_list = []
string_text_list.append(string_text)
sequences = loaded_tokenizer.texts_to_sequences(string_text_list)
padded_sequences = pad_sequences(sequences, maxlen=50, padding='post', truncating='post')
return padded_sequences
# python -m spacy download en_core_web_sm
# pre-processing the data by getting verb, adj, adv; because of the emotion of sentence is depends on these character
import re
# pre-processing the data by getting verb, adj, adv; because of the emotion of sentence is depends on these character
def get_main_words(string_text):
tokens = nltk.word_tokenize(string_text)
pos_tags = nltk.pos_tag(tokens)
pos_string = "{'JJR', 'VB', 'WP', 'WRB', 'NNS', 'JJS', 'JJ', 'RB', 'MD', 'VBZ', 'VBG', 'VBP'}"
words = re.findall(r"'(\w+)'", pos_string)
string_list = [token for token, tag in pos_tags if tag in words]
if string_list:
string_list = ' '.join(string_list)
return string_list
return None
# complex pre-processing data
def pre_processing_data_2(string_text):
string_text = string_text.lower()
string_output = ' '.join([token.lemma_ for token in nlp(string_text)])
string_output = contractions.fix(string_output)
string_processed = get_main_words(string_output)
if string_processed:
tokenizer = RegexpTokenizer(r'\w+')
string_processed = tokenizer.tokenize(string_processed)
string_processed = " ".join(string_processed)
return string_processed
tokenizer = RegexpTokenizer(r'\w+')
string_output = tokenizer.tokenize(string_output)
string_output = [w for w in string_output if not w in stop_words]
string_output = " ".join(string_output)
return string_output
def preprocessing_data(string_text):
string_text = string_text.lower()
string_output = ' '.join([token.lemma_ for token in nlp(string_text)])
string_output = contractions.fix(string_output)
tokenizer = RegexpTokenizer(r'\w+')
string_output = tokenizer.tokenize(string_output)
string_output = [w for w in string_output if not w in stop_words]
string_output = " ".join(string_output)
return string_output
def user_capture(user_input, emotion_prd):
dataframe_capture = pd.read_csv('user_logs.csv')
user_input_logs = pd.DataFrame({
"user_input": [user_input],
"emotion_predict": [emotion_prd],
"time_logs": [datetime.now()],
})
dataframe_capture = pd.concat([dataframe_capture, user_input_logs], ignore_index=True)
dataframe_capture.to_csv("user_logs.csv", index=False)
print("Done Recorded")
return None