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app.py
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# TODO: Visualizations for topic, text
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# TODO: BERT model switch
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# TODO: Default input
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# TODO: Pre segmented sentences
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# TODO: Progress bar
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import streamlit as st
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import pandas as pd
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import re
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import json
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from utils import window, get_depths, get_local_maxima, compute_threshold, get_threshold_segments
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st.write("loading ...")
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import spacy
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nlp = spacy.load('en_core_web_sm')
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def print_list(lst):
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for e in lst:
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st.markdown("- " + e)
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# Demo start
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st.subheader("Topic Segmentation Demo")
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uploaded_file = st.file_uploader("choose a text file", type=["txt"])
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if uploaded_file is not None:
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st.session_state["text"] = uploaded_file.getvalue().decode('utf-8')
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st.write("OR")
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input_text = st.text_area(
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label="Enter text separated by newlines",
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value="",
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key="text",
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height=150
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)
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button=st.button('Get Segments')
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# Radio bar
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# BERT or TOPIC
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select_names = ["LDA Topic", "BERT"]
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model = st.radio(label='Select model', options=select_names, index=0)
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if (button==True) and input_text != "":
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# Parse sample document and break it into sentences
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texts = input_text.split('\n')
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sents = []
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for text in texts:
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doc = nlp(text)
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for sent in doc.sents:
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sents.append(sent)
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# Select tokens while ignoring punctuations and stopwords, and lowercase them
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MIN_LENGTH = 3
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tokenized_sents = [[token.lemma_.lower() for token in sent if
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not token.is_stop and not token.is_punct and token.text.strip() and len(token) >= MIN_LENGTH]
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for sent in sents]
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st.write("building topic model ...")
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# Build gensim dictionary and topic model
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from gensim import corpora, models
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import numpy as np
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np.random.seed(123)
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N_TOPICS = 5
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N_PASSES = 5
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dictionary = corpora.Dictionary(tokenized_sents)
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bow = [dictionary.doc2bow(sent) for sent in tokenized_sents]
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topic_model = models.LdaModel(corpus=bow, id2word=dictionary, num_topics=N_TOPICS, passes=N_PASSES)
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###st.write(topic_model.show_topics())
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st.write("inferring topics ...")
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# Infer topics with minimum threshold
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THRESHOLD = 0.05
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doc_topics = list(topic_model.get_document_topics(bow, minimum_probability=THRESHOLD))
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# st.write(doc_topics)
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# get top k topics for each sentence
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k = 3
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top_k_topics = [[t[0] for t in sorted(sent_topics, key=lambda x: x[1], reverse=True)][:k]
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for sent_topics in doc_topics]
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# st.write(top_k_topics)
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###st.write("apply window")
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from itertools import chain
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WINDOW_SIZE = 3
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window_topics = window(top_k_topics, n=WINDOW_SIZE)
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# assert(len(window_topics) == (len(tokenized_sents) - WINDOW_SIZE + 1))
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window_topics = [list(set(chain.from_iterable(window))) for window in window_topics]
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# Encode topics for similarity computation
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from sklearn.preprocessing import MultiLabelBinarizer
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binarizer = MultiLabelBinarizer(classes=range(N_TOPICS))
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encoded_topic = binarizer.fit_transform(window_topics)
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# Get similarities
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st.write("generating segments ...")
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from sklearn.metrics.pairwise import cosine_similarity
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sims_topic = [cosine_similarity([pair[0]], [pair[1]])[0][0] for pair in zip(encoded_topic, encoded_topic[1:])]
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# plot
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# Compute depth scores
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depths_topic = get_depths(sims_topic)
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# plot
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# Get local maxima
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filtered_topic = get_local_maxima(depths_topic, order=1)
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# plot
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###st.write("compute threshold")
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# Automatic threshold computation
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# threshold_topic = compute_threshold(depths_topic)
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threshold_topic = compute_threshold(filtered_topic)
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# topk_segments = get_topk_segments(filtered_topic, k=5)
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# Select segments based on threshold
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threshold_segments_topic = get_threshold_segments(filtered_topic, threshold_topic)
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# st.write(threshold_topic)
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###st.write("compute segments")
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segment_ids = threshold_segments_topic + WINDOW_SIZE
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segment_ids = [0] + segment_ids.tolist() + [len(sents)]
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slices = list(zip(segment_ids[:-1], segment_ids[1:]))
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segmented = [sents[s[0]: s[1]] for s in slices]
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for segment in segmented[:-1]:
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print_list([s.text for s in segment])
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st.markdown("""---""")
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print_list([s.text for s in segmented[-1]])
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