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Homo_hetero_caching / app.py

Jayesh13

Update app.py

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	import os
	os.system("pip install streamlit pandas xlsxwriter openpyxl pymongo")

	import streamlit as st
	import pandas as pd
	import xlsxwriter
	from io import BytesIO
	from collections import defaultdict
	from pymongo import MongoClient
	import hashlib

	# MongoDB setup
	client = MongoClient("mongodb+srv://dhruvmangroliya:[email protected]/BTP_DB?retryWrites=true&w=majority")
	db = client['BTP_DB']
	results_collection = db['protein_results']

	# Utility functions
	def is_homo_repeat(s):
	return all(c == s[0] for c in s)

	def hash_sequence(sequence):
	return hashlib.md5(sequence.encode()).hexdigest()

	@st.cache_data(show_spinner=False)
	def fragment_protein_sequence(sequence, max_length=1000):
	return [sequence[i:i+max_length] for i in range(0, len(sequence), max_length)]

	def find_homorepeats(protein):
	n = len(protein)
	freq = defaultdict(int)
	i = 0
	while i < n:
	curr = protein[i]
	repeat = ""
	while i < n and curr == protein[i]:
	repeat += protein[i]
	i += 1
	if len(repeat) > 1:
	freq[repeat] += 1
	return freq

	def find_hetero_amino_acid_repeats(sequence):
	repeat_counts = defaultdict(int)
	for length in range(2, len(sequence) + 1):
	for i in range(len(sequence) - length + 1):
	substring = sequence[i:i+length]
	repeat_counts[substring] += 1
	return {k: v for k, v in repeat_counts.items() if v > 1}

	def check_boundary_repeats(fragments, final_repeats, overlap=50):
	for i in range(len(fragments) - 1):
	left_overlap = fragments[i][-overlap:]
	right_overlap = fragments[i + 1][:overlap]
	overlap_region = left_overlap + right_overlap
	boundary_repeats = find_hetero_amino_acid_repeats(overlap_region)
	for substring, count in boundary_repeats.items():
	if any(aa in left_overlap for aa in substring) and any(aa in right_overlap for aa in substring):
	final_repeats[substring] += count
	return final_repeats

	def find_new_boundary_repeats(fragments, final_repeats, overlap=50):
	new_repeats = defaultdict(int)
	for i in range(len(fragments) - 1):
	left_overlap = fragments[i][-overlap:]
	right_overlap = fragments[i + 1][:overlap]
	overlap_region = left_overlap + right_overlap
	boundary_repeats = find_hetero_amino_acid_repeats(overlap_region)
	for substring, count in boundary_repeats.items():
	if any(aa in left_overlap for aa in substring) and any(aa in right_overlap for aa in substring):
	if substring not in final_repeats:
	new_repeats[substring] += count
	return new_repeats

	def get_or_process_sequence(sequence, analysis_type, overlap=50):
	hash_input = f"{sequence}_{analysis_type}"
	sequence_hash = hash_sequence(hash_input)
	cached = results_collection.find_one({"_id": sequence_hash})
	if cached:
	return cached["repeats"]

	fragments = fragment_protein_sequence(sequence)
	final_repeats = defaultdict(int)

	if analysis_type == "Hetero":
	for fragment in fragments:
	fragment_repeats = find_hetero_amino_acid_repeats(fragment)
	for k, v in fragment_repeats.items():
	final_repeats[k] += v
	final_repeats = check_boundary_repeats(fragments, final_repeats, overlap)
	new_repeats = find_new_boundary_repeats(fragments, final_repeats, overlap)
	for k, v in new_repeats.items():
	final_repeats[k] += v
	final_repeats = {k: v for k, v in final_repeats.items() if not is_homo_repeat(k)}

	elif analysis_type == "Homo":
	final_repeats = find_homorepeats(sequence)

	elif analysis_type == "Both":
	hetero_repeats = defaultdict(int)
	for fragment in fragments:
	fragment_repeats = find_hetero_amino_acid_repeats(fragment)
	for k, v in fragment_repeats.items():
	hetero_repeats[k] += v
	hetero_repeats = check_boundary_repeats(fragments, hetero_repeats, overlap)
	new_repeats = find_new_boundary_repeats(fragments, hetero_repeats, overlap)
	for k, v in new_repeats.items():
	hetero_repeats[k] += v
	hetero_repeats = {k: v for k, v in hetero_repeats.items() if not is_homo_repeat(k)}

	homo_repeats = find_homorepeats(sequence)
	final_repeats = homo_repeats.copy()
	for k, v in hetero_repeats.items():
	final_repeats[k] += v

	results_collection.insert_one({
	"_id": sequence_hash,
	"sequence": sequence,
	"analysis_type": analysis_type,
	"repeats": dict(final_repeats)
	})

	return final_repeats

	def process_excel(excel_data, analysis_type):
	repeats = set()
	sequence_data = []
	count = 0
	for sheet_name in excel_data.sheet_names:
	df = excel_data.parse(sheet_name)
	if len(df.columns) < 3:
	st.error(f"Error: The sheet '{sheet_name}' must have at least three columns: ID, Protein Name, Sequence")
	return None, None
	for _, row in df.iterrows():
	entry_id = str(row[0])
	protein_name = str(row[1])
	sequence = str(row[2]).replace('"', '').replace(' ', '').strip()
	if not sequence:
	continue
	count += 1
	freq = get_or_process_sequence(sequence, analysis_type)
	sequence_data.append((entry_id, protein_name, freq))
	repeats.update(freq.keys())
	st.toast(f"{count} sequences processed.")
	return repeats, sequence_data

	def create_excel(sequences_data, repeats, filenames):
	output = BytesIO()
	workbook = xlsxwriter.Workbook(output, {'in_memory': True})
	for file_index, file_data in enumerate(sequences_data):
	filename = filenames[file_index]
	worksheet = workbook.add_worksheet(filename[:31])
	worksheet.write(0, 0, "Entry")
	worksheet.write(0, 1, "Protein Name")
	col = 2
	for repeat in sorted(repeats):
	worksheet.write(0, col, repeat)
	col += 1
	row = 1
	for entry_id, protein_name, freq in file_data:
	worksheet.write(row, 0, entry_id)
	worksheet.write(row, 1, protein_name)
	col = 2
	for repeat in sorted(repeats):
	worksheet.write(row, col, freq.get(repeat, 0))
	col += 1
	row += 1
	workbook.close()
	output.seek(0)
	return output

	# Streamlit UI
	st.title("Protein Repeat Analysis with Caching")
	analysis_type = st.radio("Select analysis type:", ["Homo", "Hetero", "Both"], index=2)
	uploaded_files = st.file_uploader("Upload Excel files", accept_multiple_files=True, type=["xlsx"])

	# Initialize session state
	if 'all_sequences_data' not in st.session_state:
	st.session_state.all_sequences_data = []
	if 'all_repeats' not in st.session_state:
	st.session_state.all_repeats = set()
	if 'filenames' not in st.session_state:
	st.session_state.filenames = []
	if 'excel_file' not in st.session_state:
	st.session_state.excel_file = None

	if uploaded_files and st.button("Process Files"):
	st.session_state.all_repeats = set()
	st.session_state.all_sequences_data = []
	st.session_state.filenames = []
	for file in uploaded_files:
	excel_data = pd.ExcelFile(file)
	repeats, sequence_data = process_excel(excel_data, analysis_type)
	if repeats is not None:
	st.session_state.all_repeats.update(repeats)
	st.session_state.all_sequences_data.append(sequence_data)
	st.session_state.filenames.append(file.name)
	if st.session_state.all_sequences_data:
	st.toast(f"Processed {len(uploaded_files)} file(s) successfully.")
	st.session_state.excel_file = create_excel(
	st.session_state.all_sequences_data,
	st.session_state.all_repeats,
	st.session_state.filenames
	)

	if st.session_state.excel_file:
	st.download_button(
	label="Download Excel file",
	data=st.session_state.excel_file,
	file_name="protein_repeat_results.xlsx",
	mime="application/vnd.openxmlformats-officedocument.spreadsheetml.sheet"
	)

	if st.checkbox("Show Results Table"):
	rows = []
	for file_index, file_data in enumerate(st.session_state.all_sequences_data):
	filename = st.session_state.filenames[file_index]
	for entry_id, protein_name, freq in file_data:
	row = {"Filename": filename, "Entry": entry_id, "Protein Name": protein_name}
	row.update({repeat: freq.get(repeat, 0) for repeat in sorted(st.session_state.all_repeats)})
	rows.append(row)
	result_df = pd.DataFrame(rows)
	st.dataframe(result_df)