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multi-label-summary-text / app.py
Paula Leonova
Add a table for keywords for all uploaded text
7055ca6
raw
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No virus
13.6 kB
from os import write
import time
import pandas as pd
import base64
from typing import Sequence
import streamlit as st
from sklearn.metrics import classification_report
# from models import create_nest_sentences, load_summary_model, summarizer_gen, load_model, classifier_zero
import models as md
from utils import plot_result, plot_dual_bar_chart, examples_load, example_long_text_load
import json
ex_text, ex_license, ex_labels, ex_glabels = examples_load()
ex_long_text = example_long_text_load()
# if __name__ == '__main__':
st.markdown("### Long Text Summarization & Multi-Label Classification")
st.write("This app summarizes and then classifies your long text with multiple labels using [BART Large MNLI](https://huggingface.co/facebook/bart-large-mnli). The keywords are generated using [KeyBERT](https://github.com/MaartenGr/KeyBERT).")
st.write("__Inputs__: User enters their own custom text and labels.")
st.write("__Outputs__: A summary of the text, likelihood percentages for each label and a downloadable csv of the results. \
Includes additional options to generate a list of keywords and/or evaluate results against a list of ground truth labels, if available.")
example_button = st.button(label='See Example')
if example_button:
example_text = ex_long_text #ex_text
display_text = 'Excerpt from Frankenstein:' + example_text + '"\n\n' + "[This is an excerpt from Project Gutenberg's Frankenstein. " + ex_license + "]"
input_labels = ex_labels
input_glabels = ex_glabels
else:
display_text = ''
input_labels = ''
input_glabels = ''
with st.form(key='my_form'):
st.markdown("##### Step 1: Upload Text")
text_input = st.text_area("Input any text you want to summarize & classify here (keep in mind very long text will take a while to process):", display_text)
text_csv_expander = st.expander(label=f'Want to upload multiple texts at once? Expand to upload your text files below.', expanded=False)
with text_csv_expander:
st.markdown('##### Choose one of the options below:')
st.write("__Option A:__")
uploaded_text_files = st.file_uploader(label="Upload file(s) that end with the .txt suffix",
accept_multiple_files=True, key = 'text_uploader',
type = 'txt')
st.write("__Option B:__")
uploaded_csv_text_files = st.file_uploader(label='Upload a CSV file with columns: "title" and "text"',
accept_multiple_files=False, key = 'csv_text_uploader',
type = 'csv')
if text_input == display_text and display_text != '':
text_input = example_text
st.text("\n\n\n")
st.markdown("##### Step 2: Enter Labels")
labels = st.text_input('Enter possible topic labels, which can be either keywords and/or general themes (comma-separated):',input_labels, max_chars=2000)
labels = list(set([x.strip() for x in labels.strip().split(',') if len(x.strip()) > 0]))
labels_csv_expander = st.expander(label=f'Prefer to upload a list of labels instead? Click here to upload your CSV file.',expanded=False)
with labels_csv_expander:
uploaded_labels_file = st.file_uploader("Choose a CSV file with one column and no header, where each cell is a separate label",
key='labels_uploader')
gen_keywords = st.radio(
"Generate keywords from text (independent from the above labels)?",
('Yes', 'No')
)
st.text("\n\n\n")
st.markdown("##### Step 3: Provide Ground Truth Labels (_Optional_)")
glabels = st.text_input('If available, enter ground truth topic labels to evaluate results, otherwise leave blank (comma-separated):',input_glabels, max_chars=2000)
glabels = list(set([x.strip() for x in glabels.strip().split(',') if len(x.strip()) > 0]))
glabels_csv_expander = st.expander(label=f'Have a file with labels for the text? Click here to upload your CSV file.', expanded=False)
with glabels_csv_expander:
st.markdown('##### Choose one of the options below:')
st.write("__Option A:__")
uploaded_onetext_glabels_file = st.file_uploader("Choose a CSV file with one column and no header, where each cell is a separate label",
key = 'onetext_glabels_uploader')
st.write("__Option B:__")
uploaded_multitext_glabels_file = st.file_uploader('Or Choose a CSV file with two columns "title" and "label", with the cells in the title column matching the name of the files uploaded in step #1.',
key = 'multitext_glabels_uploader')
threshold_value = st.slider(
'Select a threshold cutoff for matching percentage (used for ground truth label evaluation)',
0.0, 1.0, (0.5))
submit_button = st.form_submit_button(label='Submit')
st.write("_For improvments/suggestions, please file an issue here: https://github.com/pleonova/multi-label-summary-text_")
with st.spinner('Loading pretrained models...'):
start = time.time()
summarizer = md.load_summary_model()
s_time = round(time.time() - start,4)
start = time.time()
classifier = md.load_model()
c_time = round(time.time() - start,4)
start = time.time()
kw_model = md.load_keyword_model()
k_time = round(time.time() - start,4)
st.success(f'Time taken to load various models: {k_time}s for KeyBERT model & {s_time}s for BART summarizer mnli model & {c_time}s for BART classifier mnli model.')
if submit_button or example_button:
if len(text_input) == 0 and uploaded_text_files is None and uploaded_csv_text_files is None:
st.error("Enter some text to generate a summary")
else:
# OPTION A:
if uploaded_text_files is not None:
st.markdown("### Text Inputs")
st.write('Files concatenated into a dataframe:')
file_names = []
raw_texts = []
for uploaded_file in uploaded_text_files:
text = str(uploaded_file.read(), "utf-8")
raw_texts.append(text)
title_file_name = uploaded_file.name.replace('.txt','')
file_names.append(title_file_name)
text_df = pd.DataFrame({'title': file_names,
'text': raw_texts})
st.dataframe(text_df.head())
st.download_button(
label="Download data as CSV",
data=text_df.to_csv().encode('utf-8'),
file_name='title_text.csv',
mime='title_text/csv',
)
# OPTION B: [TO DO: DIRECT CSV UPLOAD INSTEAD]
with st.spinner('Breaking up text into more reasonable chunks (transformers cannot exceed a 1024 token max)...'):
# For each body of text, create text chunks of a certain token size required for the transformer
text_chunks_lib = dict()
for i in range(0, len(text_df)):
nested_sentences = md.create_nest_sentences(document=text_df['text'][i], token_max_length=1024)
# For each chunk of sentences (within the token max)
text_chunks = []
for n in range(0, len(nested_sentences)):
tc = " ".join(map(str, nested_sentences[n]))
text_chunks.append(tc)
title_entry = text_df['title'][i]
text_chunks_lib[title_entry] = text_chunks
if gen_keywords == 'Yes':
st.markdown("### Top Keywords")
with st.spinner("Generating keywords from text..."):
kw_dict = dict()
for key in text_chunks_lib:
for text_chunk in text_chunks_lib[key]:
keywords_list = md.keyword_gen(kw_model, text_chunk)
kw_dict[key] = dict(keywords_list)
kw_df0 = pd.DataFrame.from_dict(kw_dict).reset_index()
kw_df0.rename(columns={'index': 'keyword'}, inplace=True)
kw_df = pd.melt(kw_df0, id_vars=['keyword'], var_name='title', value_name='score').dropna()
kw_df = kw_df[kw_df['score'] > 0.1][['title', 'keyword', 'score']].reset_index().drop(columns='index').sort_values(['title', 'score'], ascending=False)
st.dataframe(kw_df)
st.download_button(
label="Download data as CSV",
data=kw_df.to_csv().encode('utf-8'),
file_name='title_kewyords.csv',
mime='title_kewyords/csv',
)
st.markdown("### Summary")
with st.spinner(f'Generating summaries for {len(text_chunks)} text chunks (this may take a minute)...'):
my_expander = st.expander(label=f'Expand to see intermediate summary generation details for {len(text_chunks)} text chunks')
with my_expander:
summary = []
st.markdown("_Once the original text is broken into smaller chunks (totaling no more than 1024 tokens, \
with complete sentences), each block of text is then summarized separately using BART NLI \
and then combined at the very end to generate the final summary._")
for num_chunk, text_chunk in enumerate(text_chunks):
st.markdown(f"###### Original Text Chunk {num_chunk+1}/{len(text_chunks)}" )
st.markdown(text_chunk)
chunk_summary = md.summarizer_gen(summarizer, sequence=text_chunk, maximum_tokens = 300, minimum_tokens = 20)
summary.append(chunk_summary)
st.markdown(f"###### Partial Summary {num_chunk+1}/{len(text_chunks)}")
st.markdown(chunk_summary)
# Combine all the summaries into a list and compress into one document, again
final_summary = " \n\n".join(list(summary))
st.markdown(final_summary)
if len(text_input) == 0 or len(labels) == 0:
st.error('Enter some text and at least one possible topic to see label predictions.')
else:
st.markdown("### Top Label Predictions on Summary vs Full Text")
with st.spinner('Matching labels...'):
topics, scores = md.classifier_zero(classifier, sequence=final_summary, labels=labels, multi_class=True)
# st.markdown("### Top Label Predictions: Combined Summary")
# plot_result(topics[::-1][:], scores[::-1][:])
# st.markdown("### Download Data")
data = pd.DataFrame({'label': topics, 'scores_from_summary': scores})
# st.dataframe(data)
# coded_data = base64.b64encode(data.to_csv(index = False). encode ()).decode()
# st.markdown(
# f'<a href="data:file/csv;base64, {coded_data}" download = "data.csv">Download Data</a>',
# unsafe_allow_html = True
# )
topics_ex_text, scores_ex_text = md.classifier_zero(classifier, sequence=text_input, labels=labels, multi_class=True)
plot_dual_bar_chart(topics, scores, topics_ex_text, scores_ex_text)
data_ex_text = pd.DataFrame({'label': topics_ex_text, 'scores_from_full_text': scores_ex_text})
data2 = pd.merge(data, data_ex_text, on = ['label'])
if len(glabels) > 0:
gdata = pd.DataFrame({'label': glabels})
gdata['is_true_label'] = int(1)
data2 = pd.merge(data2, gdata, how = 'left', on = ['label'])
data2['is_true_label'].fillna(0, inplace = True)
st.markdown("### Data Table")
with st.spinner('Generating a table of results and a download link...'):
st.dataframe(data2)
@st.cache
def convert_df(df):
# IMPORTANT: Cache the conversion to prevent computation on every rerun
return df.to_csv().encode('utf-8')
csv = convert_df(data2)
st.download_button(
label="Download data as CSV",
data=csv,
file_name='text_labels.csv',
mime='text/csv',
)
# coded_data = base64.b64encode(data2.to_csv(index = False). encode ()).decode()
# st.markdown(
# f'<a href="data:file/csv;base64, {coded_data}" download = "data.csv">Click here to download the data</a>',
# unsafe_allow_html = True
# )
if len(glabels) > 0:
st.markdown("### Evaluation Metrics")
with st.spinner('Evaluating output against ground truth...'):
section_header_description = ['Summary Label Performance', 'Original Full Text Label Performance']
data_headers = ['scores_from_summary', 'scores_from_full_text']
for i in range(0,2):
st.markdown(f"###### {section_header_description[i]}")
report = classification_report(y_true = data2[['is_true_label']],
y_pred = (data2[[data_headers[i]]] >= threshold_value) * 1.0,
output_dict=True)
df_report = pd.DataFrame(report).transpose()
st.markdown(f"Threshold set for: {threshold_value}")
st.dataframe(df_report)
st.success('All done!')
st.balloons()