import os import shutil import string import zipfile from urllib.parse import urljoin import nltk import requests from application.core.settings import settings from application.parser.file.bulk import SimpleDirectoryReader from application.parser.remote.remote_creator import RemoteCreator from application.parser.open_ai_func import call_openai_api from application.parser.schema.base import Document from application.parser.token_func import group_split try: nltk.download("punkt", quiet=True) nltk.download("averaged_perceptron_tagger", quiet=True) except FileExistsError: pass # Define a function to extract metadata from a given filename. def metadata_from_filename(title): store = "/".join(title.split("/")[1:3]) return {"title": title, "store": store} # Define a function to generate a random string of a given length. def generate_random_string(length): return "".join([string.ascii_letters[i % 52] for i in range(length)]) current_dir = os.path.dirname( os.path.dirname(os.path.dirname(os.path.abspath(__file__))) ) # Define the main function for ingesting and processing documents. def ingest_worker(self, directory, formats, name_job, filename, user): """ Ingest and process documents. Args: self: Reference to the instance of the task. directory (str): Specifies the directory for ingesting ('inputs' or 'temp'). formats (list of str): List of file extensions to consider for ingestion (e.g., [".rst", ".md"]). name_job (str): Name of the job for this ingestion task. filename (str): Name of the file to be ingested. user (str): Identifier for the user initiating the ingestion. Returns: dict: Information about the completed ingestion task, including input parameters and a "limited" flag. """ # directory = 'inputs' or 'temp' # formats = [".rst", ".md"] input_files = None recursive = True limit = None exclude = True # name_job = 'job1' # filename = 'install.rst' # user = 'local' sample = False token_check = True min_tokens = 150 max_tokens = 1250 full_path = directory + "/" + user + "/" + name_job import sys print(full_path, file=sys.stderr) # check if API_URL env variable is set file_data = {"name": name_job, "file": filename, "user": user} response = requests.get( urljoin(settings.API_URL, "/api/download"), params=file_data ) # check if file is in the response print(response, file=sys.stderr) file = response.content if not os.path.exists(full_path): os.makedirs(full_path) with open(full_path + "/" + filename, "wb") as f: f.write(file) # check if file is .zip and extract it if filename.endswith(".zip"): with zipfile.ZipFile(full_path + "/" + filename, "r") as zip_ref: zip_ref.extractall(full_path) os.remove(full_path + "/" + filename) self.update_state(state="PROGRESS", meta={"current": 1}) raw_docs = SimpleDirectoryReader( input_dir=full_path, input_files=input_files, recursive=recursive, required_exts=formats, num_files_limit=limit, exclude_hidden=exclude, file_metadata=metadata_from_filename, ).load_data() raw_docs = group_split( documents=raw_docs, min_tokens=min_tokens, max_tokens=max_tokens, token_check=token_check, ) docs = [Document.to_langchain_format(raw_doc) for raw_doc in raw_docs] call_openai_api(docs, full_path, self) self.update_state(state="PROGRESS", meta={"current": 100}) if sample: for i in range(min(5, len(raw_docs))): print(raw_docs[i].text) # get files from outputs/inputs/index.faiss and outputs/inputs/index.pkl # and send them to the server (provide user and name in form) file_data = {"name": name_job, "user": user} if settings.VECTOR_STORE == "faiss": files = { "file_faiss": open(full_path + "/index.faiss", "rb"), "file_pkl": open(full_path + "/index.pkl", "rb"), } response = requests.post( urljoin(settings.API_URL, "/api/upload_index"), files=files, data=file_data ) response = requests.get( urljoin(settings.API_URL, "/api/delete_old?path=" + full_path) ) else: response = requests.post( urljoin(settings.API_URL, "/api/upload_index"), data=file_data ) # delete local shutil.rmtree(full_path) return { "directory": directory, "formats": formats, "name_job": name_job, "filename": filename, "user": user, "limited": False, } def remote_worker(self, source_data, name_job, user, directory="temp", loader="url"): # sample = False token_check = True min_tokens = 150 max_tokens = 1250 full_path = directory + "/" + user + "/" + name_job if not os.path.exists(full_path): os.makedirs(full_path) self.update_state(state="PROGRESS", meta={"current": 1}) # source_data {"data": [url]} for url type task just urls # Use RemoteCreator to load data from URL remote_loader = RemoteCreator.create_loader(loader) raw_docs = remote_loader.load_data(source_data) docs = group_split( documents=raw_docs, min_tokens=min_tokens, max_tokens=max_tokens, token_check=token_check, ) # docs = [Document.to_langchain_format(raw_doc) for raw_doc in raw_docs] call_openai_api(docs, full_path, self) self.update_state(state="PROGRESS", meta={"current": 100}) # Proceed with uploading and cleaning as in the original function file_data = {"name": name_job, "user": user} if settings.VECTOR_STORE == "faiss": files = { "file_faiss": open(full_path + "/index.faiss", "rb"), "file_pkl": open(full_path + "/index.pkl", "rb"), } requests.post( urljoin(settings.API_URL, "/api/upload_index"), files=files, data=file_data ) requests.get(urljoin(settings.API_URL, "/api/delete_old?path=" + full_path)) else: requests.post(urljoin(settings.API_URL, "/api/upload_index"), data=file_data) shutil.rmtree(full_path) return {"urls": source_data, "name_job": name_job, "user": user, "limited": False}