import os
import re
import pandas as pd
import gradio as gr
import os
import shutil
import getpass
import gzip
import pickle
import numpy as np
# Openpyxl functions for output
from openpyxl import Workbook
from openpyxl.cell.text import InlineFont
from openpyxl.cell.rich_text import TextBlock, CellRichText
from openpyxl.styles import Font, Alignment
megabyte = 1024 * 1024 # Bytes in a megabyte
file_size_mb = 500 # Size in megabytes
file_size_bytes_500mb = megabyte * file_size_mb
# Attempt to delete content of gradio temp folder
def get_temp_folder_path():
username = getpass.getuser()
return os.path.join('C:\\Users', username, 'AppData\\Local\\Temp\\gradio')
def empty_folder(directory_path):
if not os.path.exists(directory_path):
#print(f"The directory {directory_path} does not exist. No temporary files from previous app use found to delete.")
return
for filename in os.listdir(directory_path):
file_path = os.path.join(directory_path, filename)
try:
if os.path.isfile(file_path) or os.path.islink(file_path):
os.unlink(file_path)
elif os.path.isdir(file_path):
shutil.rmtree(file_path)
except Exception as e:
#print(f'Failed to delete {file_path}. Reason: {e}')
print('')
def get_file_path_end(file_path):
# First, get the basename of the file (e.g., "example.txt" from "/path/to/example.txt")
basename = os.path.basename(file_path)
# Then, split the basename and its extension and return only the basename without the extension
filename_without_extension, _ = os.path.splitext(basename)
#print(filename_without_extension)
return filename_without_extension
def get_file_path_end_with_ext(file_path):
match = re.search(r'(.*[\/\\])?(.+)$', file_path)
filename_end = match.group(2) if match else ''
return filename_end
def detect_file_type(filename):
"""Detect the file type based on its extension."""
if (filename.endswith('.csv')) | (filename.endswith('.csv.gz')) | (filename.endswith('.zip')):
return 'csv'
elif filename.endswith('.xlsx'):
return 'xlsx'
elif filename.endswith('.parquet'):
return 'parquet'
elif filename.endswith('.pkl.gz'):
return 'pkl.gz'
#elif filename.endswith('.gz'):
# return 'gz'
else:
raise ValueError("Unsupported file type.")
def read_file(filename):
"""Read the file based on its detected type."""
file_type = detect_file_type(filename)
print("Loading in file")
if file_type == 'csv':
file = pd.read_csv(filename, low_memory=False).reset_index()#.drop(["index", "Unnamed: 0"], axis=1, errors="ignore")
elif file_type == 'xlsx':
file = pd.read_excel(filename).reset_index()#.drop(["index", "Unnamed: 0"], axis=1, errors="ignore")
elif file_type == 'parquet':
file = pd.read_parquet(filename).reset_index()#.drop(["index", "Unnamed: 0"], axis=1, errors="ignore")
elif file_type == 'pkl.gz':
with gzip.open(filename, 'rb') as file:
file = pickle.load(file)
#elif file_type == ".gz":
# with gzip.open(filename, 'rb') as file:
# file = pickle.load(file)
print("File load complete")
return file
def initial_data_load(in_file):
'''
When file is loaded, update the column dropdown choices
'''
new_choices = []
concat_choices = []
index_load = None
embed_load = np.array([])
tokenised_load =[]
out_message = ""
current_source = ""
df = pd.DataFrame()
file_list = [string.name for string in in_file]
#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 "search_index" not in string.lower()]
print(data_file_names)
if not data_file_names:
out_message = "Please load in at least one csv/Excel/parquet data file."
print(out_message)
return gr.Dropdown(choices=concat_choices), gr.Dropdown(choices=concat_choices), pd.DataFrame(), pd.DataFrame(), index_load, embed_load, tokenised_load, out_message, None
# This if you have loaded in a documents object for the semantic search
if "pkl" in data_file_names[0]:
df = read_file(data_file_names[0])
new_choices = list(df[0].metadata.keys()) #["Documents"] #["page_contents"] +
current_source = get_file_path_end_with_ext(data_file_names[0])
# This if you have loaded in a csv/parquets/xlsx
else:
for file in data_file_names:
current_source = current_source + get_file_path_end_with_ext(file) + " "
# Get the size of the file
print("Checking file size")
file_size = os.path.getsize(file)
if file_size > file_size_bytes_500mb:
out_message = "Data file greater than 500mb in size. Please use smaller sizes."
print(out_message)
return gr.Dropdown(choices=concat_choices), gr.Dropdown(choices=concat_choices), pd.DataFrame(), pd.DataFrame(), index_load, embed_load, tokenised_load, out_message, None
df_new = read_file(file)
df = pd.concat([df, df_new], ignore_index = True)
new_choices = list(df.columns)
concat_choices.extend(new_choices)
# Check if there is a search index file already
index_file_names = [string for string in file_list if "gz" in string.lower()]
if index_file_names:
index_file_name = index_file_names[0]
index_load = read_file(index_file_name)
embeddings_file_names = [string for string in file_list if "embedding" in string.lower()]
if embeddings_file_names:
print("Loading embeddings from file.")
embed_load = np.load(embeddings_file_names[0])['arr_0']
# If embedding files have 'super_compress' in the title, they have been multiplied by 100 before save
if "compress" in embeddings_file_names[0]:
embed_load /= 100
else:
embed_load = np.array([])
tokenised_file_names = [string for string in file_list if "tokenised" in string.lower()]
if tokenised_file_names:
tokenised_load = read_file(tokenised_file_names[0])
out_message = "Initial data check successful. Next, choose a data column to search in the drop down above, then click 'Load data'"
print(out_message)
return gr.Dropdown(choices=concat_choices), gr.Dropdown(choices=concat_choices), df, df, index_load, embed_load, tokenised_load, out_message, current_source
def put_columns_in_join_df(in_file):
'''
When file is loaded, update the column dropdown choices
'''
new_df = pd.DataFrame()
#print("in_bm25_column")
new_choices = []
concat_choices = []
new_df = read_file(in_file.name)
new_choices = list(new_df.columns)
#print(new_choices)
concat_choices.extend(new_choices)
out_message = "File load successful. Now select a column to join below."
return gr.Dropdown(choices=concat_choices), new_df, out_message
"""
A dummy function that exists just so that dropdown updates work correctly.
"""
return None
def display_info(info_component):
gr.Info(info_component)
def highlight_found_text(search_text: str, full_text: str) -> str:
"""
Highlights occurrences of search_text within full_text.
Parameters:
- search_text (str): The text to be searched for within full_text.
- full_text (str): The text within which search_text occurrences will be highlighted.
Returns:
- str: A string with occurrences of search_text highlighted.
Example:
>>> highlight_found_text("world", "Hello, world! This is a test. Another world awaits.")
'Hello, world! This is a test. Another world awaits.'
"""
def extract_text_from_input(text, i=0):
if isinstance(text, str):
return text
elif isinstance(text, list):
return text[i][0]
else:
return ""
def extract_search_text_from_input(text):
if isinstance(text, str):
return text
elif isinstance(text, list):
return text[-1][1]
else:
return ""
full_text = extract_text_from_input(full_text)
search_text = extract_search_text_from_input(search_text)
sections = search_text.split(sep = " ")
found_positions = {}
for x in sections:
text_start_pos = 0
while text_start_pos != -1:
text_start_pos = full_text.find(x, text_start_pos)
if text_start_pos != -1:
found_positions[text_start_pos] = text_start_pos + len(x)
text_start_pos += 1
# Combine overlapping or adjacent positions
sorted_starts = sorted(found_positions.keys())
combined_positions = []
if sorted_starts:
current_start, current_end = sorted_starts[0], found_positions[sorted_starts[0]]
for start in sorted_starts[1:]:
if start <= (current_end + 10):
current_end = max(current_end, found_positions[start])
else:
combined_positions.append((current_start, current_end))
current_start, current_end = start, found_positions[start]
combined_positions.append((current_start, current_end))
# Construct pos_tokens
pos_tokens = []
prev_end = 0
for start, end in combined_positions:
if end-start > 1: # Only combine if there is a significant amount of matched text. Avoids picking up single words like 'and' etc.
pos_tokens.append(full_text[prev_end:start])
pos_tokens.append('' + full_text[start:end] + '')
prev_end = end
pos_tokens.append(full_text[prev_end:])
return "".join(pos_tokens), combined_positions
def create_rich_text_cell_from_positions(full_text, combined_positions):
# Construct pos_tokens
red = InlineFont(color='00FF0000')
rich_text_cell = CellRichText()
prev_end = 0
for start, end in combined_positions:
if end-start > 1: # Only combine if there is a significant amount of matched text. Avoids picking up single words like 'and' etc.
rich_text_cell.append(full_text[prev_end:start])
rich_text_cell.append(TextBlock(red, full_text[start:end]))
prev_end = end
rich_text_cell.append(full_text[prev_end:])
return rich_text_cell
def create_highlighted_excel_wb(df, search_text, column_to_highlight):
# Create a new Excel workbook
wb = Workbook()
sheet = wb.active
# Insert headers into the worksheet, make bold
sheet.append(df.columns.tolist())
for cell in sheet[1]:
cell.font = Font(bold=True)
column_width = 150 # Adjust as needed
relevant_column_no = (df.columns == column_to_highlight).argmax() + 1
print(relevant_column_no)
sheet.column_dimensions[sheet.cell(row=1, column=relevant_column_no).column_letter].width = column_width
# Find substrings in cells and highlight
for r_idx, row in enumerate(df.itertuples(), start=2):
for c_idx, cell_value in enumerate(row[1:], start=1):
sheet.cell(row=r_idx, column=c_idx, value=cell_value)
if df.columns[c_idx - 1] == column_to_highlight:
html_text, combined_positions = highlight_found_text(search_text, cell_value)
sheet.cell(row=r_idx, column=c_idx).value = create_rich_text_cell_from_positions(cell_value, combined_positions)
sheet.cell(row=r_idx, column=c_idx).alignment = Alignment(wrap_text=True)
return wb