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data_text_search / search_funcs /semantic_ingest_functions.py

Fixed cleaning for semantic search. Handles text with backslashes in (if cleaned). Updated packages. requirements file for only keyword search added.

8466e45 6 months ago

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	# Install/ import packages
	import time
	import re
	import ast
	import gzip
	import pandas as pd
	import gradio as gr
	import pickle
	from typing import Type, List, Literal
	#from langchain.text_splitter import RecursiveCharacterTextSplitter

	from pydantic import BaseModel, Field

	# Creating an alias for pandas DataFrame using Type
	PandasDataFrame = Type[pd.DataFrame]

	class Document(BaseModel):
	"""Class for storing a piece of text and associated metadata. Implementation adapted from Langchain code: https://github.com/langchain-ai/langchain/blob/master/libs/core/langchain_core/documents/base.py"""

	page_content: str
	"""String text."""
	metadata: dict = Field(default_factory=dict)
	"""Arbitrary metadata about the page content (e.g., source, relationships to other
	documents, etc.).
	"""
	type: Literal["Document"] = "Document"

	# Constants for chunking - not currently used
	split_strat = ["\n\n", "\n", ". ", "! ", "? "]
	chunk_size = 512
	chunk_overlap = 0
	start_index = True

	from search_funcs.helper_functions import get_file_path_end_with_ext, detect_file_type, get_file_path_end
	from search_funcs.bm25_functions import save_prepared_bm25_data
	from search_funcs.clean_funcs import initial_clean

	def parse_file_not_used(file_paths, text_column='text'):
	"""
	Accepts a list of file paths, determines each file's type based on its extension,
	and passes it to the relevant parsing function.

	Parameters:
	file_paths (list): List of file paths.
	text_column (str): Name of the column in CSV/Excel files that contains the text content.

	Returns:
	dict: A dictionary with file paths as keys and their parsed content (or error message) as values.
	"""



	if not isinstance(file_paths, list):
	raise ValueError("Expected a list of file paths.")

	extension_to_parser = {
	# '.pdf': parse_pdf,
	# '.docx': parse_docx,
	# '.txt': parse_txt,
	# '.html': parse_html,
	# '.htm': parse_html, # Considering both .html and .htm for HTML files
	'.csv': lambda file_path: parse_csv_or_excel(file_path, text_column),
	'.xlsx': lambda file_path: parse_csv_or_excel(file_path, text_column),
	'.parquet': lambda file_path: parse_csv_or_excel(file_path, text_column)
	}

	parsed_contents = {}
	file_names = []

	for file_path in file_paths:
	#print(file_path.name)
	#file = open(file_path.name, 'r')
	#print(file)
	file_extension = detect_file_type(file_path.name)
	if file_extension in extension_to_parser:
	parsed_contents[file_path.name] = extension_to_parser[file_extension](file_path.name)
	else:
	parsed_contents[file_path.name] = f"Unsupported file type: {file_extension}"

	filename_end = get_file_path_end_with_ext(file_path.name)

	file_names.append(filename_end)

	return parsed_contents, file_names

	def text_regex_clean(text):
	# Merge hyphenated words
	text = re.sub(r"(\w+)-\n(\w+)", r"\1\2", text)
	# If a double newline ends in a letter, add a full stop.
	text = re.sub(r'(?<=[a-zA-Z])\n\n', '.\n\n', text)
	# Fix newlines in the middle of sentences
	text = re.sub(r"(?<!\n\s)\n(?!\s\n)", " ", text.strip())
	# Remove multiple newlines
	text = re.sub(r"\n\s*\n", "\n\n", text)
	text = re.sub(r" ", " ", text)
	# Add full stops and new lines between words with no space between where the second one has a capital letter
	text = re.sub(r'(?<=[a-z])(?=[A-Z])', '. \n\n', text)

	return text

	def parse_csv_or_excel(file_path, data_state, text_column = "text"):
	"""
	Read in a CSV or Excel file.

	Parameters:
	file_path (str): Path to the CSV file.
	text_column (str): Name of the column in the CSV file that contains the text content.

	Returns:
	Pandas DataFrame: Dataframe output from file read
	"""

	file_list = [string.name for string in file_path]

	#print(file_list)

	data_file_names = [string for string in file_list if "tokenised" not in string.lower() and "npz" not in string.lower()]# and "gz" not in string.lower()]

	data_file_name = data_file_names[0]

	#for file_path in file_paths:
	file_name = get_file_path_end_with_ext(data_file_name)

	message = "Loaded in file. Now converting to document format."
	print(message)

	return data_state, file_name, message

	def write_out_metadata_as_string(metadata_in):
	# If metadata_in is a single dictionary, wrap it in a list
	if isinstance(metadata_in, dict):
	metadata_in = [metadata_in]

	metadata_string = [f"{' '.join(f'{k}: {v}' for k, v in d.items() if k != 'page_section')}" for d in metadata_in] # ['metadata']
	return metadata_string

	def combine_metadata_columns(df, cols):

	df['metadata'] = '{'
	df['blank_column'] = ''

	for n, col in enumerate(cols):
	df[col] = df[col].astype(str).str.replace('"',"'").str.replace('\n', ' ').str.replace('\r', ' ').str.replace('\r\n', ' ').str.cat(df['blank_column'].astype(str), sep="")

	df['metadata'] = df['metadata'] + '"' + cols[n] + '": "' + df[col] + '", '


	df['metadata'] = (df['metadata'] + "}").str.replace(', }', '}').str.replace('", }"', '}')

	return df['metadata']

	def split_string_into_chunks(input_string, max_length, split_symbols):
	# Check if input_string or split_symbols are empty
	if not input_string or not split_symbols:
	return [input_string]

	chunks = []
	current_chunk = ""

	for char in input_string:
	current_chunk += char
	if len(current_chunk) >= max_length or char in split_symbols:
	# Add the current chunk to the chunks list
	chunks.append(current_chunk)
	current_chunk = ""

	# Adding any remaining part of the string
	if current_chunk:
	chunks.append(current_chunk)

	return chunks

	def clean_line_breaks(text):
	# Replace \n and \r\n with a space
	return text.replace('\n', ' ').replace('\r', ' ').replace('\r\n', ' ')

	def parse_metadata(row):
	try:
	# Ensure the 'title' field is a string and clean line breaks
	#if 'TITLE' in row:
	# row['TITLE'] = clean_line_breaks(row['TITLE'])

	# Convert the row to a string if it's not already
	row_str = str(row) if not isinstance(row, str) else row

	row_str.replace('\n', ' ').replace('\r', ' ').replace('\r\n', ' ')

	# Parse the string
	metadata = ast.literal_eval(row_str)
	# Process metadata
	return metadata
	except SyntaxError as e:
	print(f"Failed to parse metadata: {row_str}")
	print(f"Error: {e}")
	# Handle the error or log it
	return None # or some default value

	def csv_excel_text_to_docs(df, in_file, text_column, clean = "No", return_intermediate_files = "No", chunk_size=None, progress=gr.Progress(track_tqdm=True)) -> List[Document]:
	"""Converts a DataFrame's content to a list of dictionaries in the 'Document' format, containing page_content and associated metadata."""

	output_list = []

	if not in_file:
	return None, "Please load in at least one file.", output_list

	progress(0, desc = "Loading in data")

	file_list = [string.name for string in in_file]

	data_file_names = [string for string in file_list if "tokenised" not in string and "npz" not in string.lower()]

	if not data_file_names:
	return doc_sections, "Please load in at least one csv/Excel/parquet data file.", output_list

	if not text_column:
	return None, "Please enter a column name to search"

	data_file_name = data_file_names[0]

	# Check if file is a document format, and explode out as needed
	if "prepared_docs" in data_file_name:
	print("Loading in documents from file.")

	#print(df[0:5])
	#section_series = df.iloc[:,0]
	#section_series = "{" + section_series + "}"

	doc_sections = df

	#print(doc_sections[0])

	# Convert each element in the Series to a Document instance
	#doc_sections = section_series.apply(lambda x: Document(**x))

	return doc_sections, "Finished preparing documents", output_list
	# df = document_to_dataframe(df.iloc[:,0])

	ingest_tic = time.perf_counter()

	doc_sections = []
	df[text_column] = df[text_column].astype(str).str.strip() # Ensure column is a string column

	original_text_column = text_column

	if clean == "Yes":
	progress(0.1, desc = "Cleaning data")
	clean_tic = time.perf_counter()
	print("Starting data clean.")

	#df = df.drop_duplicates(text_column)

	df_list = list(df[text_column])
	df_list = initial_clean(df_list)

	# Get rid of old data and keep only the new
	#df = df.drop(text_column, axis = 1)



	# Save to file if you have cleaned the data. Text column has now been renamed with '_cleaned' at the send
	out_file_name, text_column, df = save_prepared_bm25_data(data_file_name, df_list, df, text_column)

	df[text_column] = df_list


	clean_toc = time.perf_counter()
	clean_time_out = f"Cleaning the text took {clean_toc - clean_tic:0.1f} seconds."
	print(clean_time_out)

	cols = [col for col in df.columns if col != original_text_column]

	df["metadata"] = combine_metadata_columns(df, cols)

	#df = df.rename(columns={text_column:"page_content"})

	#print(df[["page_content", "metadata"]].to_dict(orient='records'))

	#doc_sections = df[["page_content", "metadata"]].to_dict(orient='records')
	#doc_sections = [Document(**row) for row in df[["page_content", "metadata"]].to_dict(orient='records')]

	progress(0.3, desc = "Converting data to document format")

	# Create a list of Document objects
	doc_sections = [Document(page_content=row[text_column],
	metadata= parse_metadata(row["metadata"]))
	for index, row in progress.tqdm(df.iterrows(), desc = "Splitting up text", unit = "rows")]

	ingest_toc = time.perf_counter()

	ingest_time_out = f"Preparing documents took {ingest_toc - ingest_tic:0.1f} seconds"
	print(ingest_time_out)

	if return_intermediate_files == "Yes":
	progress(0.5, desc = "Saving prepared documents")
	data_file_out_name_no_ext = get_file_path_end(data_file_name)
	file_name = data_file_out_name_no_ext
	#print(doc_sections)
	#page_content_series_string = pd.Series(doc_sections).astype(str)
	#page_content_series_string = page_content_series_string.str.replace(" type='Document'", "").str.replace("' metadata=", "', 'metadata':").str.replace("page_content=", "{'page_content':")
	#page_content_series_string = page_content_series_string + "}"
	#print(page_content_series_string[0])
	#metadata_series_string = pd.Series(doc_sections[1]).astype(str)


	if clean == "No":
	#pd.DataFrame(data = {"Documents":page_content_series_string}).to_parquet(file_name + "_prepared_docs.parquet")
	out_doc_file_name = "output/" + file_name + "_prepared_docs.pkl.gz"
	with gzip.open(out_doc_file_name, 'wb') as file:
	pickle.dump(doc_sections, file)

	#pd.Series(doc_sections).to_pickle(file_name + "_prepared_docs.pkl")
	elif clean == "Yes":
	#pd.DataFrame(data = {"Documents":page_content_series_string}).to_parquet(file_name + "_prepared_docs_clean.parquet")

	out_doc_file_name = "output/" + file_name + "_cleaned_prepared_docs.pkl.gz"
	with gzip.open(out_doc_file_name, 'wb') as file:
	pickle.dump(doc_sections, file)

	#pd.Series(doc_sections).to_pickle(file_name + "_prepared_docs_clean.pkl")
	output_list.append(out_doc_file_name)
	print("Documents saved to file.")

	return doc_sections, "Finished preparing documents.", output_list

	def document_to_dataframe(documents):
	'''
	Convert an object in document format to pandas dataframe
	'''
	rows = []

	for doc in documents:
	# Convert Document to dictionary and extract metadata
	doc_dict = doc.dict()
	metadata = doc_dict.pop('metadata')

	# Add the page_content and type to the metadata
	metadata['page_content'] = doc_dict['page_content']
	metadata['type'] = doc_dict['type']

	# Add to the list of rows
	rows.append(metadata)

	# Create a DataFrame from the list of rows
	df = pd.DataFrame(rows)
	return df