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Transcript-EDA-NLTK / app.py

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	import streamlit as st
	import pandas as pd
	from sklearn.feature_extraction.text import TfidfVectorizer
	from sklearn.cluster import KMeans
	from sklearn.metrics.pairwise import linear_kernel, cosine_similarity
	import nltk
	from nltk.corpus import stopwords
	from nltk import FreqDist
	import re
	import os
	import base64
	from graphviz import Digraph
	from io import BytesIO
	import networkx as nx
	import matplotlib.pyplot as plt

	st.set_page_config(
	page_title="📺Transcript📜EDA🔍NLTK",
	page_icon="🌠",
	layout="wide",
	initial_sidebar_state="expanded",
	menu_items={
	'Get Help': 'https://huggingface.co./awacke1',
	'Report a bug': "https://huggingface.co./awacke1",
	'About': "https://huggingface.co./awacke1"
	}
	)

	st.markdown('''
	1. 🔍 Transcript Insights Using Exploratory Data Analysis (EDA) 📊 - Unveil hidden patterns 🕵️‍♂️ and insights 🧠 in your transcripts. 🏆.
	2. 📜 Natural Language Toolkit (NLTK) 🛠️:- your compass 🧭 in the vast landscape of NLP.
	3. 📺 Transcript Analysis 📈:Speech recognition 🎙️ and thematic extraction 🌐, audiovisual content to actionable insights 🔑.
	''')

	# 🧠 Cluster sentences using K-means
	def cluster_sentences(sentences, num_clusters):
	sentences = [s for s in sentences if len(s) > 10]
	num_clusters = min(num_clusters, len(sentences))
	vectorizer = TfidfVectorizer()
	X = vectorizer.fit_transform(sentences)
	kmeans = KMeans(n_clusters=num_clusters, random_state=42)
	kmeans.fit(X)
	clustered_sentences = [[] for _ in range(num_clusters)]
	for i, label in enumerate(kmeans.labels_):
	similarity = linear_kernel(kmeans.cluster_centers_[label:label+1], X[i:i+1]).flatten()[0]
	clustered_sentences[label].append((similarity, sentences[i]))
	return [[s for _, s in sorted(cluster, reverse=True)] for cluster in clustered_sentences]

	# 📊 Create context graph
	def create_context_graph(context_words):
	graph = Digraph()
	for i, (before, high, after) in enumerate(context_words):
	if before:
	graph.node(f'before{i}', before, shape='box')
	graph.edge(f'before{i}', f'high{i}', label=before)
	graph.node(f'high{i}', high, shape='ellipse')
	if after:
	graph.node(f'after{i}', after, shape='diamond')
	graph.edge(f'high{i}', f'after{i}', label=after)
	return graph

	# 🔗 Create relationship graph
	def create_relationship_graph(words):
	graph = Digraph()
	for i, word in enumerate(words):
	graph.node(str(i), word)
	if i > 0:
	graph.edge(str(i-1), str(i), label=word)
	return graph

	# 📈 Display context graph
	def display_context_graph(context_words):
	st.graphviz_chart(create_context_graph(context_words))

	# 📊 Display context table
	def display_context_table(context_words):
	table = "\| Before \| High Info Word \| After \|\n\|--------\|----------------\|-------\|\n"
	table += "\n".join(f"\| {b if b else ''} \| {h} \| {a if a else ''} \|" for b, h, a in context_words)
	st.markdown(table)

	# 📈 Display relationship graph
	def display_relationship_graph(words):
	st.graphviz_chart(create_relationship_graph(words))

	# 📥 Download NLTK data
	@st.cache_resource
	def download_nltk_data():
	try:
	nltk.data.find('tokenizers/punkt')
	nltk.data.find('corpora/stopwords')
	except LookupError:
	with st.spinner('Downloading required NLTK data...'):
	nltk.download('punkt')
	nltk.download('stopwords')
	st.success('NLTK data is ready!')

	# 🔍 Extract context words
	def extract_context_words(text, high_information_words):
	words = nltk.word_tokenize(text)
	return [(words[i-1] if i > 0 else None, word, words[i+1] if i < len(words)-1 else None)
	for i, word in enumerate(words) if word.lower() in high_information_words]

	# 📊 Extract high information words
	def extract_high_information_words(text, top_n=10):
	try:
	words = [word.lower() for word in nltk.word_tokenize(text) if word.isalpha()]
	stop_words = set(stopwords.words('english'))
	filtered_words = [word for word in words if word not in stop_words]
	return [word for word, _ in FreqDist(filtered_words).most_common(top_n)]
	except Exception as e:
	st.error(f"Error in extract_high_information_words: {str(e)}")
	return []

	# 📁 Get text files
	def get_txt_files():
	excluded_files = {'freeze.txt', 'requirements.txt', 'packages.txt', 'pre-requirements.txt'}
	txt_files = [f for f in os.listdir() if f.endswith('.txt') and f not in excluded_files]
	return pd.DataFrame({'File Name': txt_files, 'Full Path': [os.path.abspath(f) for f in txt_files]})

	# 📊 Get high info words per cluster
	def get_high_info_words_per_cluster(cluster_sentences, num_words=5):
	return [extract_high_information_words(" ".join(cluster), num_words) for cluster in cluster_sentences]

	# 💾 Get text file download link
	def get_text_file_download_link(text_to_download, filename='Output.txt', button_label="💾 Save"):
	b64 = base64.b64encode(text_to_download.encode()).decode()
	return f'<a href="data:file/txt;base64,{b64}" download="{filename}" style="margin-top:20px;">{button_label}</a>'

	# 📊 Perform EDA
	def perform_eda(file_name):
	st.subheader(f"EDA for {file_name}")
	process_file(os.path.abspath(file_name))

	# 📊 Plot cluster words
	def plot_cluster_words(cluster_sentences):
	for i, cluster in enumerate(cluster_sentences):
	words = re.findall(r'\b[a-z]{4,}\b', " ".join(cluster))
	word_freq = FreqDist(words)
	top_words = [word for word, _ in word_freq.most_common(20)]
	vectorizer = TfidfVectorizer()
	X = vectorizer.fit_transform(top_words)
	similarity_matrix = cosine_similarity(X.toarray())
	G = nx.from_numpy_array(similarity_matrix)
	pos = nx.spring_layout(G, k=0.5)
	plt.figure(figsize=(8, 6))
	nx.draw_networkx(G, pos, node_size=500, font_size=12, font_weight='bold', with_labels=True,
	labels={i: word for i, word in enumerate(top_words)},
	node_color='skyblue', edge_color='gray')
	plt.axis('off')
	plt.title(f"Cluster {i+1} Word Arrangement")
	st.pyplot(plt)
	st.markdown(f"Cluster {i+1} Details:")
	st.markdown(f"Top Words: {', '.join(top_words)}")
	st.markdown(f"Number of Sentences: {len(cluster)}")
	st.markdown("---")

	# 📝 Process file
	def process_file(file_path):
	try:
	with open(file_path, 'r', encoding="utf-8") as file:
	file_text = file.read()
	text_without_timestamps = remove_timestamps(file_text)
	top_words = extract_high_information_words(text_without_timestamps, 10)

	with st.expander("📊 Top 10 High Information Words"):
	st.write(top_words)

	with st.expander("📈 Relationship Graph"):
	display_relationship_graph(top_words) if top_words else st.warning("Unable to generate relationship graph.")

	context_words = extract_context_words(text_without_timestamps, top_words)

	with st.expander("🔗 Context Graph"):
	display_context_graph(context_words) if context_words else st.warning("Unable to generate context graph.")

	with st.expander("📑 Context Table"):
	display_context_table(context_words) if context_words else st.warning("Unable to display context table.")

	sentences = [line.strip() for line in file_text.split('\n') if len(line.strip()) > 10]
	st.write(f"Total Sentences: {len(sentences)}")

	num_clusters = st.slider("Number of Clusters", min_value=2, max_value=10, value=5)
	clustered_sentences = cluster_sentences(sentences, num_clusters)

	col1, col2 = st.columns(2)
	with col1:
	st.subheader("Original Text")
	st.text_area("Original Sentences", value="\n".join(sentences), height=400)

	with col2:
	st.subheader("Clustered Text")
	cluster_high_info_words = get_high_info_words_per_cluster(clustered_sentences)
	clusters = "\n".join(f"Cluster {i+1} (High Info Words: {', '.join(words)})"
	for i, words in enumerate(cluster_high_info_words))
	clustered_text = "\n\n".join(f"Cluster {i+1} (High Info Words: {', '.join(words)}):\n{cluster_text}"
	for i, (words, cluster_text) in enumerate(zip(cluster_high_info_words,
	["\n".join(cluster) for cluster in clustered_sentences])))
	st.text_area("Clusters", value=clusters, height=200)
	st.text_area("Clustered Sentences", value=clustered_text, height=200)

	clustered_sentences_flat = [sentence for cluster in clustered_sentences for sentence in cluster]
	st.write("✅ All sentences are accounted for in the clustered output." if set(sentences) == set(clustered_sentences_flat)
	else "❌ Some sentences are missing in the clustered output.")

	plot_cluster_words(clustered_sentences)
	except Exception as e:
	st.error(f"Error processing file: {str(e)}")

	# 🕰️ Remove timestamps
	def remove_timestamps(text):
	return re.sub(r'\d{1,2}:\d{2}\n.*\n', '', text)

	# Main execution
	download_nltk_data()

	st.title("📺 Transcript Analysis 📊")

	txt_files_df = get_txt_files()
	st.write("Available .txt files:")
	st.dataframe(txt_files_df[['File Name']])

	st.write("Select a file to perform EDA:")
	cols = st.columns(len(txt_files_df))
	for i, (_, row) in enumerate(txt_files_df.iterrows()):
	if cols[i].button(f":file_folder: {row['File Name']}"):
	perform_eda(row['File Name'])

	if "messages" not in st.session_state:
	st.session_state.messages = []

	for message in st.session_state.messages:
	with st.chat_message(message["role"]):
	st.markdown(message["content"])

	if prompt := st.chat_input("Ask a question about the data"):
	st.session_state.messages.append({"role": "user", "content": prompt})
	with st.chat_message("user"):
	st.markdown(prompt)
	response = f"You asked: {prompt}\n\nThis is a placeholder response. In a real application, you would process the user's question and provide an answer based on the data and EDA results."
	st.session_state.messages.append({"role": "assistant", "content": response})
	with st.chat_message("assistant"):
	st.markdown(response)

	st.markdown("For more information and updates, visit our [help page](https://huggingface.co./awacke1).")