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import tweepy as tw
import streamlit as st
import pandas as pd
import torch
import numpy as np
import re
from torch.utils.data import TensorDataset, DataLoader, RandomSampler, SequentialSampler
from transformers import AutoTokenizer, AutoModelForSequenceClassification,AdamW
tokenizer = AutoTokenizer.from_pretrained('hackathon-pln-es/twitter_sexismo-finetuned-exist2021-metwo')
model = AutoModelForSequenceClassification.from_pretrained("hackathon-pln-es/twitter_sexismo-finetuned-exist2021-metwo")
import torch
if torch.cuda.is_available():
device = torch.device("cuda")
print('I will use the GPU:', torch.cuda.get_device_name(0))
else:
print('No GPU available, using the CPU instead.')
device = torch.device("cpu")
consumer_key = st.secrets["consumer_key"]
consumer_secret = st.secrets["consumer_secret"]
access_token = st.secrets["access_token"]
access_token_secret = st.secrets["access_token_secret"]
auth = tw.OAuthHandler(consumer_key, consumer_secret)
auth.set_access_token(access_token, access_token_secret)
api = tw.API(auth, wait_on_rate_limit=True)
def preprocess(text):
text=text.lower()
# remove hyperlinks
text = re.sub(r'https?:\/\/.*[\r\n]*', '', text)
text = re.sub(r'http?:\/\/.*[\r\n]*', '', text)
#Replace &, <, > with &,<,> respectively
text=text.replace(r'&?',r'and')
text=text.replace(r'<',r'<')
text=text.replace(r'>',r'>')
#remove hashtag sign
#text=re.sub(r"#","",text)
#remove mentions
text = re.sub(r"(?:\@)\w+", '', text)
#text=re.sub(r"@","",text)
#remove non ascii chars
text=text.encode("ascii",errors="ignore").decode()
#remove some puncts (except . ! ?)
text=re.sub(r'[:"#$%&\*+,-/:;<=>@\\^_`{|}~]+','',text)
text=re.sub(r'[!]+','!',text)
text=re.sub(r'[?]+','?',text)
text=re.sub(r'[.]+','.',text)
text=re.sub(r"'","",text)
text=re.sub(r"\(","",text)
text=re.sub(r"\)","",text)
text=" ".join(text.split())
return text
def highlight_survived(s):
return ['background-color: red']*len(s) if (s.Sexista == 1) else ['background-color: green']*len(s)
def color_survived(val):
color = 'red' if val=='Sexista' else 'white'
return f'background-color: {color}'
st.set_page_config(layout="wide")
st.markdown('<style>body{background-color: Blue;}</style>',unsafe_allow_html=True)
#background-color: Blue;
colT1,colT2 = st.columns([2,8])
with colT2:
#st.title('Analisis de comentarios sexistas en Twitter')
st.markdown(""" <style> .font {
font-size:40px ; font-family: 'Cooper Black'; color: #FF9633;}
</style> """, unsafe_allow_html=True)
st.markdown('<p class="font">Análisis de comentarios sexistas en Twitter</p>', unsafe_allow_html=True)
st.markdown(""" <style> .font1 {
font-size:28px ; font-family: 'Times New Roman'; color: #8d33ff;}
</style> """, unsafe_allow_html=True)
st.markdown('<p class="font1">Objetivo 5 de los ODS. Lograr la igualdad entre los géneros y empoderar a todas las mujeres y las niñas</p>', unsafe_allow_html=True)
#st.header('Objetivo 5 de los ODS, Lograr la igualdad entre los géneros y empoderar a todas las mujeres y las niñas')
with colT1:
st.image("https://upload.wikimedia.org/wikipedia/commons/thumb/c/c7/Sustainable_Development_Goal-es-13.jpg/1200px-Sustainable_Development_Goal-es-13.jpg",width=200)
st.markdown(""" <style> .font2 {
font-size:16px ; font-family: 'Times New Roman'; color: #3358ff;}
</style> """, unsafe_allow_html=True)
st.markdown('<p class="font2">Esta app utiliza tweepy para descargar tweets de twitter en base a la información de entrada y procesa los tweets usando transformers de HuggingFace para detectar comentarios sexistas. El resultado y los tweets correspondientes se almacenan en un dataframe para mostrarlo que es lo que se ve como resultado.La finalidad del proyecto, es en línea con el Objetivo 5 de los ODS, eliminar todas las formas de violencia contra todas las mujeres y las niñas en los ámbitos público y privado, incluidas la trata y la explotación sexual y otros tipos de explotación. Los comentarios sexistas son una forma de violencia contra la mujer con está aplicación puede ayudar a hacer un estudio sistemático de la misma.</p>',unsafe_allow_html=True)
def run():
with st.form(key='Introduzca Texto'):
col,buff1, buff2 = st.columns([2,2,1])
#col.text_input('smaller text window:')
search_words = col.text_input("Introduzca el termino o usuario para analizar y pulse el check correspondiente")
number_of_tweets = col.number_input('Introduzca número de twweets a analizar. Máximo 50', 0,50,10)
termino=st.checkbox('Término')
usuario=st.checkbox('Usuario')
submit_button = col.form_submit_button(label='Analizar')
error=False
if submit_button:
date_since = "2020-09-14"
if ( termino == False and usuario == False):
st.text('Error no se ha seleccionado ningun check')
error=True
elif ( termino == True and usuario == True):
st.text('Error se han seleccionado los dos check')
error=True
if (error == False):
if (termino):
new_search = search_words + " -filter:retweets"
tweets =tw.Cursor(api.search_tweets,q=new_search,lang="es",since=date_since).items(number_of_tweets)
elif (usuario):
tweets = api.user_timeline(screen_name = search_words,count=number_of_tweets)
tweet_list = [i.text for i in tweets]
#tweet_list = [strip_undesired_chars(i.text) for i in tweets]
text= pd.DataFrame(tweet_list)
text[0] = text[0].apply(preprocess)
text1=text[0].values
indices1=tokenizer.batch_encode_plus(text1.tolist(),
max_length=128,
add_special_tokens=True,
return_attention_mask=True,
pad_to_max_length=True,
truncation=True)
input_ids1=indices1["input_ids"]
attention_masks1=indices1["attention_mask"]
prediction_inputs1= torch.tensor(input_ids1)
prediction_masks1 = torch.tensor(attention_masks1)
# Set the batch size.
batch_size = 25
# Create the DataLoader.
prediction_data1 = TensorDataset(prediction_inputs1, prediction_masks1)
prediction_sampler1 = SequentialSampler(prediction_data1)
prediction_dataloader1 = DataLoader(prediction_data1, sampler=prediction_sampler1, batch_size=batch_size)
print('Predicting labels for {:,} test sentences...'.format(len(prediction_inputs1)))
# Put model in evaluation mode
model.eval()
# Tracking variables
predictions = []
# Predict
for batch in prediction_dataloader1:
batch = tuple(t.to(device) for t in batch)
# Unpack the inputs from our dataloader
b_input_ids1, b_input_mask1 = batch
# Telling the model not to compute or store gradients, saving memory and # speeding up prediction
with torch.no_grad():
# Forward pass, calculate logit predictions
outputs1 = model(b_input_ids1, token_type_ids=None,attention_mask=b_input_mask1)
logits1 = outputs1[0]
# Move logits and labels to CPU
logits1 = logits1.detach().cpu().numpy()
# Store predictions and true labels
predictions.append(logits1)
flat_predictions = [item for sublist in predictions for item in sublist]
flat_predictions = np.argmax(flat_predictions, axis=1).flatten()#p = [i for i in classifier(tweet_list)]
df = pd.DataFrame(list(zip(tweet_list, flat_predictions)),columns =['Últimos '+ str(number_of_tweets)+' Tweets'+' de '+search_words, 'Sexista'])
df['Sexista']= np.where(df['Sexista']== 0, 'No Sexista', 'Sexista')
st.table(df.reset_index(drop=True).head(20).style.applymap(color_survived, subset=['Sexista']))
#st.dataframe(df.style.apply(highlight_survived, axis=1))
#st.table(df)
#st.write(df)
run() |