idchlife/rag-solution
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

base: idchlife:effbc7d00f0e556945b599698b40833e152dbc19
Branches Tags
idchlife:main
..
compare: idchlife:main
Branches Tags
idchlife:main

12 Commits
effbc7d00f ... main

Author SHA1 Message Date
idchlife
93d538ecc6 Checking properly source of the file for metadata, with instanceof 2026-02-11 16:23:27 +03:00
idchlife
f5659675ec - main feat: adaptation for async enrichment 
- added file_type, this will hold the "таблица", "презентация" and so on types
- file source metadata is now taken either from local source or yandex disk.
 2026-02-11 15:46:54 +03:00
idchlife
7b52887558 Enrichment now processed via chunks. 2 documents -> into the vector storage. Also geussing source from the file extension 2026-02-11 11:23:50 +03:00
idchlife
1e6ab247b9 Phase 12 done... loading via adaptive collection, yadisk or local 2026-02-10 22:19:27 +03:00
idchlife
e9dd28ad55 Prep for Phase 12 of loading files for enrichment through the adaptive collections 2026-02-10 21:42:59 +03:00
idchlife
06a3155b6b Working Yandex Disk integration for loading files. Tests for local and Yandex 2026-02-10 20:42:07 +03:00
idchlife
63c3e2c5c7 Adaptive Collection, and Phase 11 WIP 2026-02-10 20:12:43 +03:00
idchlife
447ecaba39 enrichment with years, events 2026-02-10 13:20:19 +03:00
idchlife
ce62fd50ed Created this MD file to store things we need to look out to 2026-02-09 21:33:03 +03:00
idchlife
2cb9b39bf2 removed test retrieval feature. off you go 2026-02-09 21:17:42 +03:00
idchlife
f9c47c772f llamaindex update + unpacking archives in data 2026-02-09 19:00:23 +03:00
idchlife
0adbc29692 env step for llamaindex 2026-02-05 22:48:39 +03:00
27 changed files with 1464 additions and 361 deletions
Expand all files Collapse all files

BIN
.DS_Store vendored
View File

Binary file not shown.

2
.gitignore vendored Normal file
View File

@@ -0,0 +1,2 @@
data-unpacked-archives
data-broken-archives

BIN
services/rag/.DS_Store vendored
View File

Binary file not shown.

BIN
services/rag/langchain/.DS_Store vendored Normal file
View File

Binary file not shown.

8
services/rag/langchain/.env.dist
View File

@@ -6,3 +6,11 @@ CHAT_MODEL_STRATEGY=ollama
QDRANT_HOST=HOST
QDRANT_REST_PORT=PORT
QDRANT_GRPC_PORT=PORT
YADISK_TOKEN=TOKEN
ENRICHMENT_SOURCE=local/yadisk
ENRICHMENT_LOCAL_PATH=path
ENRICHMENT_YADISK_PATH=path
ENRICHMENT_PROCESSING_MODE=async/sync
ENRICHMENT_ADAPTIVE_FILES_QUEUE_LIMIT=5
ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS=4
ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS=4

1
services/rag/langchain/.gitignore vendored
View File

@@ -215,3 +215,4 @@ __marimo__/
# Streamlit
.streamlit/secrets.toml
document_tracking.db
.env.test

4
services/rag/langchain/FOOD_FOR_THOUGHT.md Normal file
View File

@@ -0,0 +1,4 @@
# Things to remember but not to implement right away. Wanna-have, nice-to-have, look-into
- [x] Year. Extract year from the chunk, store it into metadata, then add filter when retrieving, if query too has a year.
- [ ] Rankers. Should we use rerankers in our pipeline? What does it mean. Get from the vector storage a lot more results, than needed. Rerank them with reranker model, then feed the limited rest further into our pipeline.

45
services/rag/langchain/PLANNING.md
View File

@@ -56,3 +56,48 @@ Chosen data folder: relatve ./../../../data - from the current folder
- [x] After accepting API endpont address, it should be used to send requests and process responses to imitate chat with the agent by the provided API endpoint.
- [x] Show API endpoint in the header of the chat.
- [x] If there is error connecting with the API, imitate bot sending message about error with the connection and suggestion to reload page to provide new API endpoint
# Phase 10 (extracting additional metadata from chunks, and filtering where possible with it)
- [x] Create separate function in helpers module (create if does not exist) for retrieving years from the text. It should return found years.
- [x] During enriching vector storage, when loading and splitting documents, extract years from the chunk, and add these years as numbers into metadata field "years" (array of number or best suitable Qdrant type for searching by the year if needed). The helper function for retrieving years from text can be used.
- [x] Updating VectorStoreRetriever._get_relevant_documents: We need to ensure, that when searching for something with the year (user mentiones year in the query, in Russian language), we search vectors with metadata which has these mentioned year in the "years" array of years. The helper function for retrieving years from query can be used to filter out documents with years.
- [x] Create heuristic, regex function in helpers module for extracting name of event, in Russian language. We need to use regex and possible words before, after the event, etc.
- [x] Durint enriching vector storage, try to extract event name from the chunk and save in metadata in field "events", which will contain list of strings, possible evennts. Helper function usage is advised.
- [x] In VectorStoreRetriever._get_relevant_documents add similarity search for the event name, if event name is present in the query. Helper function should be used here to try to extract the event name.
# Phase 11 (adaptive collection, to attach different filesystems in the future)
- [x] Create adaptive collection class and adaptive file class in the helpers, which will be as abstract classes, that should encompass feature of iterating and working with files locally
- [x] Write local filesystem implementation of adaptive collection
- [x] Write tests for local filesystem implementation, using test/samples folder filled with files and directories for testing of iteration and recursivess
- [x] Create Yandex Disk implementation of the Adaptive Collection. Constructor should have requirement for TOKEN for Yandex Disk.
- [x] Write tests for Yandex Disk implementation, using folder "Общая/Информация". .env.test has YADISK_TOKEN variable for connecting. While testing log output of found files during iterating. If test fails at this step, leave to manual fixing, and this step can be marked as done.
# Phase 12 (using local file system or yandex disk)
During enrichment, we should use adaptive collection from the helpers, for loading documents. We should not use directly local filesystem, but use adaptive collection as a wrapper.
- [x] Adaptive file in helper now has filename in it, so tests should be adjusted for this
- [x] Add conditional usage of adaptive collection in the enrichment stage. .env has now variable ENRICHMENT_SOURCE with 2 possible values: yadisk, local
- [x] With local source, use env variable for local filesystem adaptive collection: ENRICHMENT_LOCAL_PATH
- [x] With yadisk source, use env variable for YADISK_TOKEN for token for auth within Yandex Disk, ENRICHMENT_YADISK_PATH for path on the Yandex Disk system
- [x] We still will need filetypes that we will need to skip, so while iterating over files we need to check their extension and skip them.
- [x] Adaptive files has filename in them, so it should be used when extracting metadata
# Phase 13 (async processing of files)
During this Phase we create asynchronous process of enrichment, utilizing async/await
- [x] Prepare enrichment to be async process, so adjust neede libraries, etc. that are needed to be processed.
- [x] Create queue for adaptive files. It will store adaptive files that needs to be processed
- [x] Create queue for documents that were taken from the adaptive files.
- [x] Create function that iterates through the adaptive collection and adds it to the adaptive files queue ADAPTIVE_FILES_QUEUE. Let's call it insert_adaptive_files_queue
- [x] Create function that takes adaptive file from the adaptive files queue (PROCESSED_DOCUMENTS_QUEUE) and processed it, by splitting into chunks of documents. Let's call it process_adaptive_files_queue
- [x] Create function that takes chunk of documents from the processed documents queue, and sends them into the vector storage. It marks document, of which these chunks, as processed in the local database (existing feature adapted here. Let's call it upload_processed_documents_from_queue
- [x] Utilize Python threading machinery, to create threads for several our functions. There will be environment variables: ENRICHMENT_ADAPTIVE_FILES_QUEUE_LIMIT (default 5), ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS (default 4), ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS (default 4)
- [x] Function insert_adaptive_files_queue would not be in a thread. It will iterate through adaptive collection and wait while queue has less than ENRICHMENT_ADAPTIVE_FILE_LOAD_QUEUE_LIMIT.
- [x] Function process_adaptive_files_queue should be started in number of threads (defined in .env ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS)
- [x] Function upload_processed_documents_from_queue should be started in number of threads (defined in .env ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS)
- [x] Program should control threads. Function insert_adaptive_files_queue, after adaptive collection ends, then should wait untill all theads finish. What does finish mean? It means when our insert_adaptive_files_queue function realizes that there is no adaptive files left in collection, it marks shared variable between threads, that collection finished. When our other functions in threads sees that this variable became true - they deplete queue and do not go to the next loop to wait for new items in queue, and just finish. This would eventually finish the program. Each thread finishes, and main program too as usual after processing all of things.

8
services/rag/langchain/agent.py
View File

@@ -21,7 +21,9 @@ from vector_storage import initialize_vector_store
load_dotenv()
def get_llm_model_info(llm_model: str = None) -> Tuple[str, str, str, str, str]:
def get_llm_model_info(
llm_model: Optional[str] = None,
) -> Tuple[str, str, str, str, str]:
"""
Get LLM model information based on environment configuration.
@@ -121,7 +123,7 @@ class DocumentRetrievalTool(BaseTool):
def create_chat_agent(
collection_name: str = "documents_langchain", llm_model: str = None
collection_name: str = "documents_langchain", llm_model: Optional[str] = None
) -> Any:
"""
Create a chat agent with document retrieval capabilities.
@@ -177,7 +179,7 @@ def create_chat_agent(
def chat_with_agent(
query: str,
collection_name: str = "documents_langchain",
llm_model: str = None,
llm_model: Optional[str] = None,
history: List[BaseMessage] = None,
) -> Dict[str, Any]:
"""

49
services/rag/langchain/cli.py
View File

@@ -1,8 +1,8 @@
import os
from pathlib import Path
from dotenv import load_dotenv
import click
from dotenv import load_dotenv
from loguru import logger
# Load environment variables
@@ -37,15 +37,16 @@ def ping():
name="enrich",
help="Load documents from data directory and store in vector database",
)
@click.option("--data-dir", default="../../../data", help="Path to the data directory")
@click.option(
"--collection-name",
default="documents_langchain",
help="Name of the vector store collection",
)
def enrich(data_dir, collection_name):
def enrich(collection_name):
"""Load documents from data directory and store in vector database"""
logger.info(f"Starting enrichment process for directory: {data_dir}")
logger.info(
f"Starting enrichment process. Enrichment source: {os.getenv('ENRICHMENT_SOURCE')}"
)
try:
# Import here to avoid circular dependencies
@@ -56,7 +57,7 @@ def enrich(data_dir, collection_name):
vector_store = initialize_vector_store(collection_name=collection_name)
# Run enrichment process
run_enrichment_process(vector_store, data_dir=data_dir)
run_enrichment_process(vector_store)
logger.info("Enrichment process completed successfully!")
click.echo("Documents have been successfully loaded into the vector store.")
@@ -85,36 +86,9 @@ def retrieve(query, collection_name, top_k):
"""Retrieve documents from vector database based on a query"""
logger.info(f"Starting retrieval process for query: {query}")
try:
# Import here to avoid circular dependencies
from retrieval import search_documents_with_metadata
# Perform retrieval
results = search_documents_with_metadata(
query=query,
collection_name=collection_name,
top_k=top_k
)
if not results:
click.echo("No relevant documents found for the query.")
return
click.echo(f"Found {len(results)} relevant documents:\n")
for i, result in enumerate(results, 1):
click.echo(f"{i}. Source: {result['source']}")
click.echo(f" Filename: {result['filename']}")
click.echo(f" Page: {result['page_number']}")
click.echo(f" File Extension: {result['file_extension']}")
click.echo(f" Content Preview: {result['content'][:200]}...")
click.echo(f" Metadata: {result['metadata']}\n")
logger.info("Retrieval process completed successfully!")
except Exception as e:
logger.error(f"Error during retrieval process: {str(e)}")
click.echo(f"Error: {str(e)}")
click.echo(
"WARNING: Retrieval disabled, since it is no longer relevant for the testing of the retrieving feature. Use chat with agent instead. xoxo"
)
@cli.command(
@@ -143,10 +117,7 @@ def chat(collection_name, model):
click.echo("Type 'quit' or 'exit' to end the conversation.\n")
# Run the interactive chat loop
run_chat_loop(
collection_name=collection_name,
llm_model=model
)
run_chat_loop(collection_name=collection_name, llm_model=model)
logger.info("Chat session ended")

500
services/rag/langchain/enrichment.py
View File

@@ -1,13 +1,21 @@
"""Document enrichment module for loading documents into vector storage."""
import os
import hashlib
import os
import queue
import threading
from pathlib import Path
from typing import List, Dict, Any
from typing import List, Optional, Tuple
from dotenv import load_dotenv
from langchain_community.document_loaders import PyPDFLoader
from langchain_core.documents import Document
from langchain_text_splitters import RecursiveCharacterTextSplitter
from langchain_community.document_loaders import PyPDFLoader
from loguru import logger
from sqlalchemy import Column, Integer, String, create_engine
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import sessionmaker
# Dynamically import other loaders to handle optional dependencies
try:
from langchain_community.document_loaders import UnstructuredWordDocumentLoader
@@ -33,25 +41,63 @@ try:
from langchain_community.document_loaders import UnstructuredODTLoader
except ImportError:
UnstructuredODTLoader = None
from sqlalchemy import create_engine, Column, Integer, String
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import sessionmaker
from loguru import logger
import sqlite3
from helpers import (
LocalFilesystemAdaptiveCollection,
YandexDiskAdaptiveCollection,
YandexDiskAdaptiveFile,
_AdaptiveCollection,
_AdaptiveFile,
extract_russian_event_names,
extract_years_from_text,
)
# Load environment variables
load_dotenv()
# Define the path to the data directory
DATA_DIR = Path("../../../data").resolve()
DB_PATH = Path("document_tracking.db").resolve()
ENRICHMENT_SOURCE = os.getenv("ENRICHMENT_SOURCE", "local").lower()
ENRICHMENT_LOCAL_PATH = os.getenv("ENRICHMENT_LOCAL_PATH")
ENRICHMENT_YADISK_PATH = os.getenv("ENRICHMENT_YADISK_PATH")
YADISK_TOKEN = os.getenv("YADISK_TOKEN")
ENRICHMENT_PROCESSING_MODE = os.getenv("ENRICHMENT_PROCESSING_MODE", "async").lower()
ENRICHMENT_ADAPTIVE_FILES_QUEUE_LIMIT = int(
os.getenv("ENRICHMENT_ADAPTIVE_FILES_QUEUE_LIMIT", "5")
)
ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS = int(
os.getenv("ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS", "4")
)
ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS = int(
os.getenv("ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS", "4")
)
SUPPORTED_EXTENSIONS = {
".pdf",
".docx",
".doc",
".pptx",
".xlsx",
".xls",
".jpg",
".jpeg",
".png",
".gif",
".bmp",
".tiff",
".webp",
".odt",
".txt", # this one is obvious but was unexpected to see in data lol
}
Base = declarative_base()
class ProcessedDocument(Base):
"""Database model for tracking processed documents."""
__tablename__ = "processed_documents"
id = Column(Integer, primary_key=True)
@@ -59,6 +105,25 @@ class ProcessedDocument(Base):
file_hash = Column(String, nullable=False)
# to guess the filetype in russian language, for searching it
def try_guess_file_type(extension: str) -> str:
if extension in [".xlsx", "xls"]:
return "таблица"
elif extension in [".jpg", ".jpeg", ".png", ".gif", ".bmp", ".tiff", ".webp"]:
return "изображение"
elif extension in [".pptx"]:
return "презентация"
else:
return "документ"
def identify_adaptive_file_source(adaptive_file: _AdaptiveFile) -> str:
if isinstance(adaptive_file, YandexDiskAdaptiveFile):
return "Яндекс Диск"
else:
return "Локальный Файл"
class DocumentEnricher:
"""Class responsible for enriching documents and loading them to vector storage."""
@@ -70,6 +135,34 @@ class DocumentEnricher:
length_function=len,
)
# In sync mode we force minimal concurrency values.
if ENRICHMENT_PROCESSING_MODE == "sync":
self.adaptive_files_queue_limit = 1
self.file_process_threads_count = 1
self.document_upload_threads_count = 1
else:
self.adaptive_files_queue_limit = max(
1, ENRICHMENT_ADAPTIVE_FILES_QUEUE_LIMIT
)
self.file_process_threads_count = max(
1, ENRICHMENT_ADAPTIVE_FILE_PROCESS_THREADS
)
self.document_upload_threads_count = max(
1, ENRICHMENT_ADAPTIVE_DOCUMENT_UPLOADS_THREADS
)
# Phase 13 queues
self.ADAPTIVE_FILES_QUEUE: queue.Queue = queue.Queue(
maxsize=self.adaptive_files_queue_limit
)
self.PROCESSED_DOCUMENTS_QUEUE: queue.Queue = queue.Queue(
maxsize=max(1, self.adaptive_files_queue_limit * 2)
)
# Shared state for thread lifecycle
self.collection_finished = threading.Event()
self.processing_finished = threading.Event()
# Initialize database for tracking processed documents
self._init_db()
@@ -77,35 +170,45 @@ class DocumentEnricher:
"""Initialize the SQLite database for tracking processed documents."""
self.engine = create_engine(f"sqlite:///{DB_PATH}")
Base.metadata.create_all(self.engine)
Session = sessionmaker(bind=self.engine)
self.session = Session()
self.SessionLocal = sessionmaker(bind=self.engine)
def _get_file_hash(self, file_path: str) -> str:
"""Calculate SHA256 hash of a file."""
hash_sha256 = hashlib.sha256()
with open(file_path, "rb") as f:
# Read file in chunks to handle large files
for chunk in iter(lambda: f.read(4096), b""):
with open(file_path, "rb") as file_handle:
for chunk in iter(lambda: file_handle.read(4096), b""):
hash_sha256.update(chunk)
return hash_sha256.hexdigest()
def _is_document_processed(self, file_path: str) -> bool:
"""Check if a document has already been processed."""
file_hash = self._get_file_hash(file_path)
existing = self.session.query(ProcessedDocument).filter_by(
file_hash=file_hash
).first()
return existing is not None
def _is_document_hash_processed(self, file_hash: str) -> bool:
"""Check if a document hash has already been processed."""
session = self.SessionLocal()
try:
existing = (
session.query(ProcessedDocument).filter_by(file_hash=file_hash).first()
)
return existing is not None
finally:
session.close()
def _mark_document_processed(self, file_path: str):
def _mark_document_processed(self, file_identifier: str, file_hash: str):
"""Mark a document as processed in the database."""
file_hash = self._get_file_hash(file_path)
doc_record = ProcessedDocument(
file_path=file_path,
file_hash=file_hash
)
self.session.add(doc_record)
self.session.commit()
session = self.SessionLocal()
try:
existing = (
session.query(ProcessedDocument)
.filter_by(file_path=file_identifier)
.first()
)
if existing is not None:
existing.file_hash = file_hash
else:
session.add(
ProcessedDocument(file_path=file_identifier, file_hash=file_hash)
)
session.commit()
finally:
session.close()
def _get_loader_for_extension(self, file_path: str):
"""Get the appropriate loader for a given file extension."""
@@ -113,168 +216,275 @@ class DocumentEnricher:
if ext == ".pdf":
return PyPDFLoader(file_path)
elif ext in [".docx", ".doc"]:
if ext in [".docx", ".doc"]:
if UnstructuredWordDocumentLoader is None:
logger.warning(f"UnstructuredWordDocumentLoader not available for {file_path}. Skipping.")
logger.warning(
f"UnstructuredWordDocumentLoader not available for {file_path}. Skipping."
)
return None
return UnstructuredWordDocumentLoader(file_path, **{"strategy": "hi_res", "languages": ["rus"]})
elif ext == ".pptx":
return UnstructuredWordDocumentLoader(
file_path, **{"strategy": "hi_res", "languages": ["rus"]}
)
if ext == ".pptx":
if UnstructuredPowerPointLoader is None:
logger.warning(f"UnstructuredPowerPointLoader not available for {file_path}. Skipping.")
logger.warning(
f"UnstructuredPowerPointLoader not available for {file_path}. Skipping."
)
return None
return UnstructuredPowerPointLoader(file_path, **{"strategy": "hi_res", "languages": ["rus"]})
elif ext in [".xlsx", ".xls"]:
return UnstructuredPowerPointLoader(
file_path, **{"strategy": "hi_res", "languages": ["rus"]}
)
if ext in [".xlsx", ".xls"]:
if UnstructuredExcelLoader is None:
logger.warning(f"UnstructuredExcelLoader not available for {file_path}. Skipping.")
logger.warning(
f"UnstructuredExcelLoader not available for {file_path}. Skipping."
)
return None
return UnstructuredExcelLoader(file_path, **{"strategy": "hi_res", "languages": ["rus"]})
elif ext in [".jpg", ".jpeg", ".png", ".gif", ".bmp", ".tiff", ".webp"]:
return UnstructuredExcelLoader(
file_path, **{"strategy": "hi_res", "languages": ["rus"]}
)
if ext in [".jpg", ".jpeg", ".png", ".gif", ".bmp", ".tiff", ".webp"]:
if UnstructuredImageLoader is None:
logger.warning(f"UnstructuredImageLoader not available for {file_path}. Skipping.")
logger.warning(
f"UnstructuredImageLoader not available for {file_path}. Skipping."
)
return None
# Use OCR strategy for images to extract text
return UnstructuredImageLoader(file_path, **{"strategy": "ocr_only", "languages": ["rus"]})
elif ext == ".odt":
return UnstructuredImageLoader(
file_path, **{"strategy": "ocr_only", "languages": ["rus"]}
)
if ext == ".odt":
if UnstructuredODTLoader is None:
logger.warning(f"UnstructuredODTLoader not available for {file_path}. Skipping.")
logger.warning(
f"UnstructuredODTLoader not available for {file_path}. Skipping."
)
return None
return UnstructuredODTLoader(file_path, **{"strategy": "hi_res", "languages": ["rus"]})
else:
# For text files and unsupported formats, try to load as text
try:
with open(file_path, 'r', encoding='utf-8') as f:
content = f.read()
return None, content # Return content directly for text processing
except UnicodeDecodeError:
logger.warning(f"Could not decode file as text: {file_path}")
return None, None
return UnstructuredODTLoader(
file_path, **{"strategy": "hi_res", "languages": ["rus"]}
)
return None
def load_and_split_documents(self, file_paths: List[str]) -> List[Document]:
"""Load documents from file paths and split them appropriately."""
all_docs = []
def _load_one_adaptive_file(
self, adaptive_file: _AdaptiveFile
) -> Tuple[List[Document], Optional[Tuple[str, str]]]:
"""Load and split one adaptive file by using its local working callback."""
loaded_docs: List[Document] = []
processed_record: Optional[Tuple[str, str]] = None
source_identifier = identify_adaptive_file_source(adaptive_file)
extension = adaptive_file.extension.lower()
file_type = try_guess_file_type(extension)
for file_path in file_paths:
if self._is_document_processed(file_path):
logger.info(f"Skipping already processed document: {file_path}")
continue
def process_local_file(local_file_path: str):
nonlocal loaded_docs, processed_record
logger.info(f"Processing document: {file_path}")
# Get the appropriate loader for the file extension
loader = self._get_loader_for_extension(file_path)
file_hash = self._get_file_hash(local_file_path)
if self._is_document_hash_processed(file_hash):
logger.info(
f"SKIPPING already processed document hash for: {source_identifier}"
)
return
else:
logger.info("Document is not processed! Doing it")
loader = self._get_loader_for_extension(local_file_path)
if loader is None:
# For unsupported formats that we tried to load as text
logger.warning(f"No loader available for file: {source_identifier}")
return
docs = loader.load()
for doc in docs:
doc.metadata["file_type"] = file_type
doc.metadata["source"] = source_identifier
doc.metadata["filename"] = adaptive_file.filename
doc.metadata["file_path"] = source_identifier
doc.metadata["file_size"] = os.path.getsize(local_file_path)
doc.metadata["file_extension"] = extension
if "page" in doc.metadata:
doc.metadata["page_number"] = doc.metadata["page"]
split_docs = self.text_splitter.split_documents(docs)
for chunk in split_docs:
chunk.metadata["years"] = extract_years_from_text(chunk.page_content)
chunk.metadata["events"] = extract_russian_event_names(
chunk.page_content
)
loaded_docs = split_docs
processed_record = (source_identifier, file_hash)
adaptive_file.work_with_file_locally(process_local_file)
return loaded_docs, processed_record
# Phase 13 API: inserts adaptive files into ADAPTIVE_FILES_QUEUE
def insert_adaptive_files_queue(
self, adaptive_collection: _AdaptiveCollection, recursive: bool = True
):
for adaptive_file in adaptive_collection.iterate(recursive=recursive):
if adaptive_file.extension.lower() not in SUPPORTED_EXTENSIONS:
logger.debug(
f"Skipping unsupported file extension for {adaptive_file.filename}: {adaptive_file.extension}"
)
continue
self.ADAPTIVE_FILES_QUEUE.put(adaptive_file)
logger.debug("ADAPTIVE COLLECTION DEPLETED!")
self.collection_finished.set()
# Phase 13 API: reads adaptive files and writes processed docs into PROCESSED_DOCUMENTS_QUEUE
def process_adaptive_files_queue(self):
while True:
try:
adaptive_file = self.ADAPTIVE_FILES_QUEUE.get(timeout=0.2)
except queue.Empty:
if self.collection_finished.is_set():
return
continue
try:
# Load the document(s)
docs = loader.load()
split_docs, processed_record = self._load_one_adaptive_file(
adaptive_file
)
if split_docs:
self.PROCESSED_DOCUMENTS_QUEUE.put((split_docs, processed_record))
except Exception as error:
logger.error(f"Error processing {adaptive_file.filename}: {error}")
finally:
self.ADAPTIVE_FILES_QUEUE.task_done()
# Add metadata to each document
for doc in docs:
# Extract metadata from the original file
doc.metadata["source"] = file_path
doc.metadata["filename"] = Path(file_path).name
doc.metadata["file_path"] = file_path
doc.metadata["file_size"] = os.path.getsize(file_path)
# Add page number if available in original metadata
if "page" in doc.metadata:
doc.metadata["page_number"] = doc.metadata["page"]
# Add file extension as metadata
doc.metadata["file_extension"] = Path(file_path).suffix
# Split documents if they are too large
split_docs = self.text_splitter.split_documents(docs)
# Add to the collection
all_docs.extend(split_docs)
except Exception as e:
logger.error(f"Error processing {file_path}: {str(e)}")
# Phase 13 API: uploads chunked docs and marks file processed
def upload_processed_documents_from_queue(self):
while True:
try:
payload = self.PROCESSED_DOCUMENTS_QUEUE.get(timeout=0.2)
except queue.Empty:
if self.processing_finished.is_set():
return
continue
return all_docs
try:
documents, processed_record = payload
self.vector_store.add_documents(documents)
def enrich_and_store(self, file_paths: List[str]):
if processed_record is not None:
self._mark_document_processed(
processed_record[0], processed_record[1]
)
except Exception as error:
logger.error(
f"Error uploading processed documents: {error}. But swallowing error. NOT raising."
)
finally:
self.PROCESSED_DOCUMENTS_QUEUE.task_done()
def _run_threaded_pipeline(self, adaptive_collection: _AdaptiveCollection):
"""Run Phase 13 queue/thread pipeline."""
process_threads = [
threading.Thread(
target=self.process_adaptive_files_queue,
name=f"adaptive-file-processor-{index}",
daemon=True,
)
for index in range(self.file_process_threads_count)
]
upload_threads = [
threading.Thread(
target=self.upload_processed_documents_from_queue,
name=f"document-uploader-{index}",
daemon=True,
)
for index in range(self.document_upload_threads_count)
]
for thread in process_threads:
thread.start()
for thread in upload_threads:
thread.start()
# This one intentionally runs on main thread per Phase 13 requirement.
self.insert_adaptive_files_queue(adaptive_collection, recursive=True)
# Wait file queue completion and processing threads end.
self.ADAPTIVE_FILES_QUEUE.join()
for thread in process_threads:
thread.join()
# Signal upload workers no more payload is expected.
self.processing_finished.set()
# Wait upload completion and upload threads end.
self.PROCESSED_DOCUMENTS_QUEUE.join()
for thread in upload_threads:
thread.join()
def _run_sync_pipeline(self, adaptive_collection: _AdaptiveCollection):
"""Sequential pipeline for sync mode."""
logger.info("Running enrichment in sync mode")
self.insert_adaptive_files_queue(adaptive_collection, recursive=True)
self.process_adaptive_files_queue()
self.processing_finished.set()
self.upload_processed_documents_from_queue()
def enrich_and_store(self, adaptive_collection: _AdaptiveCollection):
"""Load, enrich, and store documents in the vector store."""
logger.info(f"Starting enrichment process for {len(file_paths)} files...")
logger.info("Starting enrichment process...")
# Load and split documents
documents = self.load_and_split_documents(file_paths)
if not documents:
logger.info("No new documents to process.")
if ENRICHMENT_PROCESSING_MODE == "sync":
logger.info("Document enrichment process starting in SYNC mode")
self._run_sync_pipeline(adaptive_collection)
return
logger.info(f"Loaded and split {len(documents)} document chunks, adding to vector store...")
# Add documents to vector store
try:
self.vector_store.add_documents(documents)
# Only mark documents as processed after successful insertion to vector store
processed_file_paths = set()
for doc in documents:
if 'source' in doc.metadata:
processed_file_paths.add(doc.metadata['source'])
for file_path in processed_file_paths:
self._mark_document_processed(file_path)
logger.info(f"Successfully added {len(documents)} document chunks to vector store and marked {len(processed_file_paths)} files as processed.")
except Exception as e:
logger.error(f"Error adding documents to vector store: {str(e)}")
raise
logger.info("Document enrichment process starting in ASYNC/THREAD mode")
self._run_threaded_pipeline(adaptive_collection)
def get_all_documents_from_data_dir(data_dir: str = str(DATA_DIR)) -> List[str]:
"""Get all supported document file paths from the data directory."""
supported_extensions = {
'.pdf', '.docx', '.doc', '.pptx', '.xlsx', '.xls',
'.jpg', '.jpeg', '.png', '.gif', '.bmp', '.tiff',
'.webp', '.odt'
}
def get_enrichment_adaptive_collection(
data_dir: str = str(DATA_DIR),
) -> _AdaptiveCollection:
"""Create adaptive collection based on environment source configuration."""
source = ENRICHMENT_SOURCE
if source == "local":
local_path = ENRICHMENT_LOCAL_PATH or data_dir
logger.info(f"Using local adaptive collection from path: {local_path}")
return LocalFilesystemAdaptiveCollection(local_path)
file_paths = []
for root, dirs, files in os.walk(data_dir):
for file in files:
if Path(file).suffix.lower() in supported_extensions:
file_paths.append(os.path.join(root, file))
if source == "yadisk":
if not YADISK_TOKEN:
raise ValueError("YADISK_TOKEN must be set when ENRICHMENT_SOURCE=yadisk")
if not ENRICHMENT_YADISK_PATH:
raise ValueError(
"ENRICHMENT_YADISK_PATH must be set when ENRICHMENT_SOURCE=yadisk"
)
logger.info(
f"Using Yandex Disk adaptive collection from path: {ENRICHMENT_YADISK_PATH}"
)
return YandexDiskAdaptiveCollection(
token=YADISK_TOKEN,
base_dir=ENRICHMENT_YADISK_PATH,
)
return file_paths
raise ValueError(
f"Unsupported ENRICHMENT_SOURCE='{source}'. Allowed values: local, yadisk"
)
def run_enrichment_process(vector_store, data_dir: str = str(DATA_DIR)):
"""Run the full enrichment process."""
logger.info(f"Starting document enrichment from directory: {data_dir}")
logger.info("Starting document enrichment process")
# Get all supported documents from the data directory
file_paths = get_all_documents_from_data_dir(data_dir)
if not file_paths:
logger.warning(f"No supported documents found in {data_dir}")
return
logger.info(f"Found {len(file_paths)} documents to process")
adaptive_collection = get_enrichment_adaptive_collection(data_dir=data_dir)
# Initialize the document enricher
enricher = DocumentEnricher(vector_store)
# Run the enrichment process
enricher.enrich_and_store(file_paths)
enricher.enrich_and_store(adaptive_collection)
logger.info("Document enrichment process completed!")
if __name__ == "__main__":
# Example usage
from vector_storage import initialize_vector_store
# Initialize vector store
vector_store = initialize_vector_store()
# Run enrichment process
run_enrichment_process(vector_store)

280
services/rag/langchain/helpers.py Normal file
View File

@@ -0,0 +1,280 @@
"""Helper utilities for metadata extraction from Russian text."""
import os
import re
import tempfile
from abc import ABC, abstractmethod
from pathlib import Path
from typing import Callable, Iterator, List
import requests
from loguru import logger
_YEAR_PATTERN = re.compile(r"(?<!\d)(1\d{3}|20\d{2}|2100)(?!\d)")
_EVENT_KEYWORDS = (
"конференц",
"форум",
"выставк",
"фестивал",
"саммит",
"чемпионат",
"олимпиад",
"кубок",
"конкурс",
"вебинар",
"семинар",
"лекци",
"презентаци",
"хакатон",
"митап",
"встреч",
"съезд",
"конгресс",
)
_EVENT_PHRASE_PATTERN = re.compile(
r"\b("
r"конференц(?:ия|ии|ию|ией)?|"
r"форум(?:а|е|у|ом)?|"
r"выставк(?:а|и|е|у|ой)?|"
r"фестивал(?:ь|я|е|ю|ем)?|"
r"саммит(?:а|е|у|ом)?|"
r"чемпионат(?:а|е|у|ом)?|"
r"олимпиад(?:а|ы|е|у|ой)?|"
r"кубок(?:а|е|у|ом)?|"
r"конкурс(?:а|е|у|ом)?|"
r"вебинар(?:а|е|у|ом)?|"
r"семинар(?:а|е|у|ом)?|"
r"лекци(?:я|и|ю|ей)?|"
r"презентаци(?:я|и|ю|ей)?|"
r"хакатон(?:а|е|у|ом)?|"
r"митап(?:а|е|у|ом)?|"
r"встреч(?:а|и|е|у|ей)?|"
r"съезд(?:а|е|у|ом)?|"
r"конгресс(?:а|е|у|ом)?"
r")\b(?:\s+[A-Za-zА-Яа-я0-9][A-Za-zА-Яа-я0-9\-_/.]{1,40}){0,6}",
flags=re.IGNORECASE,
)
_QUOTED_EVENT_PATTERN = re.compile(
r"(?:мероприят(?:ие|ия|ию|ием)|событ(?:ие|ия|ию|ием)|"
r"конференц(?:ия|ии|ию|ией)?|форум(?:а|е|у|ом)?|"
r"выставк(?:а|и|е|у|ой)?|фестивал(?:ь|я|е|ю|ем)?)"
r"[^\n\"«»]{0,40}[«\"]([^»\"\n]{3,120})[»\"]",
flags=re.IGNORECASE,
)
def _normalize_event(value: str) -> str:
normalized = " ".join(value.strip().split()).strip(".,;:!?()[]{}")
return normalized.lower()
def extract_years_from_text(text: str) -> List[int]:
"""Extract unique years from text as integers."""
if not text:
return []
years = {int(match.group(0)) for match in _YEAR_PATTERN.finditer(text)}
return sorted(years)
def extract_russian_event_names(text: str) -> List[str]:
"""
Extract likely Russian event names from text using heuristic regex rules.
Returns normalized event phrases in lowercase.
"""
if not text:
return []
events: List[str] = []
seen = set()
for match in _EVENT_PHRASE_PATTERN.finditer(text):
candidate = _normalize_event(match.group(0))
if len(candidate) < 6:
continue
if not any(keyword in candidate for keyword in _EVENT_KEYWORDS):
continue
if candidate not in seen:
events.append(candidate)
seen.add(candidate)
for match in _QUOTED_EVENT_PATTERN.finditer(text):
quoted = _normalize_event(match.group(1))
if len(quoted) < 3:
continue
if quoted not in seen:
events.append(quoted)
seen.add(quoted)
return events
class _AdaptiveFile(ABC):
extension: str # Format: .jpg
filename: str
def __init__(self, filename: str, extension: str):
self.filename = filename
self.extension = extension
# This method allows to work with file locally, and lambda should be provided for this.
# Why separate method? For possible cleanup after work is done. And to download file, if needed
# Lambda: first argument is a local path
@abstractmethod
def work_with_file_locally(self, func: Callable[[str], None]):
"""Run callback with a local path to the file."""
class _AdaptiveCollection(ABC):
# Generator method with yield
@abstractmethod
def iterate(self, recursive: bool) -> Iterator[_AdaptiveFile]:
"""Iterate files in collection."""
class LocalFilesystemAdaptiveFile(_AdaptiveFile):
local_path: str
def __init__(self, filename: str, extension: str, local_path: str):
super().__init__(filename, extension)
self.local_path = local_path
def work_with_file_locally(self, func: Callable[[str], None]):
func(self.local_path)
class LocalFilesystemAdaptiveCollection(_AdaptiveCollection):
base_dir: str
def __init__(self, base_dir: str):
super().__init__()
self.base_dir = base_dir
def iterate(self, recursive: bool) -> Iterator[_AdaptiveFile]:
for root, dirs, files in os.walk(self.base_dir):
for file in files:
full_path = os.path.join(root, file)
p = Path(full_path)
yield LocalFilesystemAdaptiveFile(p.name, p.suffix, full_path)
if not recursive:
break
class YandexDiskAdaptiveFile(_AdaptiveFile):
"""Adaptive file representation for Yandex Disk resources."""
remote_path: str
def __init__(self, filename: str, extension: str, remote_path: str, token: str):
super().__init__(filename, extension)
self.token = token
self.remote_path = remote_path
def _download_to_temp_file(self) -> str:
headers = {"Authorization": f"OAuth {self.token}"}
response = requests.get(
"https://cloud-api.yandex.net/v1/disk/resources/download",
headers=headers,
params={"path": self.remote_path},
timeout=30,
)
response.raise_for_status()
href = response.json()["href"]
file_response = requests.get(href, timeout=120)
file_response.raise_for_status()
p = Path(self.remote_path)
suffix = p.suffix
with tempfile.NamedTemporaryFile(delete=False, suffix=suffix) as temp_file:
temp_file.write(file_response.content)
return temp_file.name
def work_with_file_locally(self, func: Callable[[str], None]):
temp_path = self._download_to_temp_file()
try:
func(temp_path)
finally:
if os.path.exists(temp_path):
os.unlink(temp_path)
class YandexDiskAdaptiveCollection(_AdaptiveCollection):
"""Adaptive collection implementation for Yandex Disk."""
def __init__(self, token: str, base_dir: str):
if not token:
raise ValueError("Yandex Disk token is required")
self.token = token
self.base_dir = base_dir
self._headers = {"Authorization": f"OAuth {self.token}"}
@staticmethod
def _normalize_disk_path(path: str) -> str:
return path if path.startswith("disk:/") else f"disk:/{path.lstrip('/')}"
def _get_resource_info(self, path: str) -> dict:
response = requests.get(
"https://cloud-api.yandex.net/v1/disk/resources",
headers=self._headers,
params={"path": path, "limit": 1000},
timeout=30,
)
response.raise_for_status()
return response.json()
def _iter_children(self, path: str) -> Iterator[dict]:
offset = 0
while True:
response = requests.get(
"https://cloud-api.yandex.net/v1/disk/resources",
headers=self._headers,
params={"path": path, "limit": 1000, "offset": offset},
timeout=30,
)
response.raise_for_status()
payload = response.json()
embedded = payload.get("_embedded", {})
items = embedded.get("items", [])
if not items:
break
for item in items:
yield item
if len(items) < 1000:
break
offset += 1000
def iterate(self, recursive: bool) -> Iterator[_AdaptiveFile]:
root_path = self._normalize_disk_path(self.base_dir)
root_info = self._get_resource_info(root_path)
if root_info.get("type") == "file":
path = root_info["path"]
logger.info(f"Found file on Yandex Disk: {path}")
p = Path(path)
yield YandexDiskAdaptiveFile(p.name, p.suffix, path, self.token)
return
directories = [root_path]
while directories:
current_dir = directories.pop(0)
for item in self._iter_children(current_dir):
item_type = item.get("type")
item_path = str(item.get("path"))
if item_type == "file":
logger.info(f"Found file on Yandex Disk: {item_path}")
p = Path(item_path)
yield YandexDiskAdaptiveFile(
p.name, p.suffix, item_path, self.token
)
elif recursive and item_type == "dir":
directories.append(item_path)

199
services/rag/langchain/retrieval.py
View File

@@ -1,13 +1,16 @@
"""Retrieval module for querying vector storage and returning relevant documents with metadata."""
import os
from typing import List, Optional
from typing import List
from dotenv import load_dotenv
from langchain_core.retrievers import BaseRetriever
from langchain_core.callbacks import CallbackManagerForRetrieverRun
from langchain_core.documents import Document
from langchain_core.retrievers import BaseRetriever
from loguru import logger
from qdrant_client.http.models import FieldCondition, Filter, MatchAny
from helpers import extract_russian_event_names, extract_years_from_text
from vector_storage import initialize_vector_store
# Load environment variables
@@ -22,6 +25,91 @@ class VectorStoreRetriever(BaseRetriever):
vector_store: object # Qdrant vector store instance
top_k: int = 5 # Number of documents to retrieve
def _build_qdrant_filter(
self, years: List[int], events: List[str]
) -> Filter | None:
"""Build a Qdrant payload filter for extracted years and events."""
conditions: List[FieldCondition] = []
if years:
conditions.extend(
[
FieldCondition(
key="metadata.years",
match=MatchAny(any=years),
),
FieldCondition(
key="years",
match=MatchAny(any=years),
),
]
)
if events:
conditions.extend(
[
FieldCondition(
key="metadata.events",
match=MatchAny(any=events),
),
FieldCondition(
key="events",
match=MatchAny(any=events),
),
]
)
if not conditions:
return None
return Filter(should=conditions)
@staticmethod
def _post_filter_documents(
documents: List[Document], years: List[int], events: List[str]
) -> List[Document]:
"""Fallback filter in Python in case vector DB filter cannot be applied."""
if not years and not events:
return documents
year_set = set(years)
event_set = set(events)
filtered: List[Document] = []
for doc in documents:
metadata = doc.metadata or {}
doc_years = {
int(year)
for year in metadata.get("years", [])
if isinstance(year, int) or (isinstance(year, str) and year.isdigit())
}
doc_events = {str(event).lower() for event in metadata.get("events", [])}
year_match = not year_set or bool(doc_years.intersection(year_set))
event_match = not event_set or bool(doc_events.intersection(event_set))
if year_match and event_match:
filtered.append(doc)
return filtered
@staticmethod
def _merge_unique_documents(documents: List[Document]) -> List[Document]:
"""Deduplicate documents while preserving order."""
unique_docs: List[Document] = []
seen = set()
for doc in documents:
dedup_key = (
doc.metadata.get("source", ""),
doc.metadata.get("page_number", doc.metadata.get("page", "")),
doc.page_content[:200],
)
if dedup_key in seen:
continue
seen.add(dedup_key)
unique_docs.append(doc)
return unique_docs
def _get_relevant_documents(
self, query: str, *, run_manager: CallbackManagerForRetrieverRun
) -> List[Document]:
@@ -38,8 +126,54 @@ class VectorStoreRetriever(BaseRetriever):
logger.info(f"Searching for documents related to query: {query[:50]}...")
try:
# Perform similarity search on the vector store
results = self.vector_store.similarity_search(query, k=self.top_k)
years_in_query = extract_years_from_text(query)
events_in_query = extract_russian_event_names(query)
search_filter = self._build_qdrant_filter(years_in_query, events_in_query)
logger.info(
f"Extracted query metadata for retrieval: years={years_in_query}, events={events_in_query}"
)
# Main search by original user query.
search_k = max(self.top_k * 3, self.top_k)
if search_filter is not None:
try:
results = self.vector_store.similarity_search(
query, k=search_k, filter=search_filter
)
except Exception as filter_error:
logger.warning(
f"Vector store filter failed, fallback to unfiltered search: {filter_error}"
)
results = self.vector_store.similarity_search(query, k=search_k)
results = self._post_filter_documents(
results, years_in_query, events_in_query
)
else:
results = self.vector_store.similarity_search(query, k=search_k)
# Additional event-focused similarity search if event names are present.
if events_in_query:
event_results: List[Document] = []
for event_name in events_in_query:
try:
if search_filter is not None:
event_docs = self.vector_store.similarity_search(
event_name, k=self.top_k, filter=search_filter
)
else:
event_docs = self.vector_store.similarity_search(
event_name, k=self.top_k
)
except Exception as event_search_error:
logger.warning(
f"Event-focused search failed for '{event_name}': {event_search_error}"
)
continue
event_results.extend(event_docs)
results.extend(event_results)
results = self._merge_unique_documents(results)[: self.top_k]
logger.info(f"Found {len(results)} relevant documents")
@@ -60,7 +194,9 @@ def create_retriever(collection_name: str = "documents_langchain", top_k: int =
Returns:
VectorStoreRetriever instance
"""
logger.info(f"Initializing vector store for retrieval from collection: {collection_name}")
logger.info(
f"Initializing vector store for retrieval from collection: {collection_name}"
)
# Initialize the vector store
vector_store = initialize_vector_store(collection_name=collection_name)
@@ -71,35 +207,8 @@ def create_retriever(collection_name: str = "documents_langchain", top_k: int =
return retriever
def search_documents(query: str, collection_name: str = "documents_langchain", top_k: int = 5) -> List[Document]:
"""
Search for documents in the vector store based on the query.
Args:
query: The query string to search for
collection_name: Name of the Qdrant collection to use
top_k: Number of documents to retrieve
Returns:
List of documents with metadata
"""
logger.info(f"Starting document search for query: {query}")
# Create the retriever
retriever = create_retriever(collection_name=collection_name, top_k=top_k)
# Perform the search
results = retriever.invoke(query)
logger.info(f"Search completed, returned {len(results)} documents")
return results
def search_documents_with_metadata(
query: str,
collection_name: str = "documents_langchain",
top_k: int = 5
query: str, collection_name: str = "documents_langchain", top_k: int = 5
) -> List[dict]:
"""
Search for documents and return them with detailed metadata.
@@ -129,30 +238,20 @@ def search_documents_with_metadata(
"metadata": doc.metadata,
"source": doc.metadata.get("source", "Unknown"),
"filename": doc.metadata.get("filename", "Unknown"),
"page_number": doc.metadata.get("page_number", doc.metadata.get("page", "N/A")),
"page_number": doc.metadata.get(
"page_number", doc.metadata.get("page", "N/A")
),
"file_extension": doc.metadata.get("file_extension", "N/A"),
"file_size": doc.metadata.get("file_size", "N/A")
"file_size": doc.metadata.get("file_size", "N/A"),
}
formatted_results.append(formatted_result)
logger.info(f"Metadata search completed, returned {len(formatted_results)} documents")
logger.info(
f"Metadata search completed, returned {len(formatted_results)} documents"
)
return formatted_results
except Exception as e:
logger.error(f"Error during document search with metadata: {str(e)}")
return []
if __name__ == "__main__":
# Example usage
query = "What is the main topic discussed in the documents?"
results = search_documents_with_metadata(query, top_k=5)
print(f"Found {len(results)} documents:")
for i, result in enumerate(results, 1):
print(f"\n{i}. Source: {result['source']}")
print(f" Filename: {result['filename']}")
print(f" Page: {result['page_number']}")
print(f" Content preview: {result['content'][:200]}...")
print(f" Metadata: {result['metadata']}")

1
services/rag/langchain/test/samples/level1/first.md Normal file
View File

@@ -0,0 +1 @@
first level

1
services/rag/langchain/test/samples/root.txt Normal file
View File

@@ -0,0 +1 @@
root file

55
services/rag/langchain/test/test_local_filesystem_adaptive_collection.py Normal file
View File

@@ -0,0 +1,55 @@
import os
import unittest
from pathlib import Path
from helpers import LocalFilesystemAdaptiveCollection, LocalFilesystemAdaptiveFile
class TestLocalFilesystemAdaptiveCollection(unittest.TestCase):
def setUp(self):
self.samples_dir = Path(__file__).parent / "samples"
def test_iterate_non_recursive_returns_only_root_files(self):
collection = LocalFilesystemAdaptiveCollection(str(self.samples_dir))
files = list(collection.iterate(recursive=False))
file_names = sorted(file.filename for file in files)
self.assertEqual(file_names, ["root.txt"])
self.assertTrue(all(isinstance(file, LocalFilesystemAdaptiveFile) for file in files))
def test_iterate_recursive_returns_nested_files(self):
collection = LocalFilesystemAdaptiveCollection(str(self.samples_dir))
files = list(collection.iterate(recursive=True))
relative_paths = sorted(
str(Path(file.local_path).relative_to(self.samples_dir)) for file in files
)
self.assertEqual(
relative_paths,
["level1/first.md", "level1/level2/second.log", "root.txt"],
)
def test_work_with_file_locally_provides_existing_path(self):
target_path = self.samples_dir / "root.txt"
adaptive_file = LocalFilesystemAdaptiveFile(
target_path.name, target_path.suffix, str(target_path)
)
observed = {}
def callback(path: str):
observed["path"] = path
with open(path, "r", encoding="utf-8") as handle:
observed["content"] = handle.read().strip()
adaptive_file.work_with_file_locally(callback)
self.assertEqual(adaptive_file.filename, "root.txt")
self.assertEqual(observed["path"], str(target_path))
self.assertEqual(observed["content"], "root file")
if __name__ == "__main__":
unittest.main()

41
services/rag/langchain/test/test_yandex_disk_adaptive_collection.py Normal file
View File

@@ -0,0 +1,41 @@
import os
import unittest
from pathlib import Path
import requests
from loguru import logger
from dotenv import load_dotenv
from helpers import YandexDiskAdaptiveCollection
load_dotenv(dotenv_path=Path(__file__).resolve().parent.parent / ".env.test")
class TestYandexDiskAdaptiveCollection(unittest.TestCase):
def test_constructor_requires_token(self):
with self.assertRaises(ValueError):
YandexDiskAdaptiveCollection(token="", base_dir="Общая/Информация")
def test_iterate_logs_found_files_for_shared_folder(self):
token = os.getenv("YADISK_TOKEN")
if not token:
self.skipTest("YADISK_TOKEN is not configured")
collection = YandexDiskAdaptiveCollection(
token=token,
base_dir="Общая/Информация",
)
try:
files = list(collection.iterate(recursive=True))
except requests.RequestException as exc:
self.skipTest(f"Yandex Disk request failed and needs manual verification: {exc}")
for item in files:
self.assertTrue(item.filename)
logger.info(f"Yandex file found during test iteration: {item.local_path}")
self.assertIsInstance(files, list)
if __name__ == "__main__":
unittest.main()

11
services/rag/llamaindex/.env.dist
View File

@@ -1,3 +1,14 @@
# Model Strategy Configuration
CHAT_STRATEGY=ollama
EMBEDDING_STRATEGY=ollama
# Ollama Configuration
OLLAMA_EMBEDDING_MODEL=MODEL
OLLAMA_CHAT_MODEL=MODEL
# OpenAI Configuration (for reference - uncomment and configure when using OpenAI strategy)
# OPENAI_CHAT_URL=https://api.openai.com/v1
# OPENAI_CHAT_KEY=your_openai_api_key_here
# OPENAI_EMBEDDING_MODEL=text-embedding-3-small
# OPENAI_EMBEDDING_BASE_URL=https://api.openai.com/v1
# OPENAI_EMBEDDING_API_KEY=your_openai_api_key_here

18
services/rag/llamaindex/PLANNING.md
View File

@@ -35,8 +35,20 @@ Chosen data folder: relatve ./../../../data - from the current folder
- [x] Create file `retrieval.py` with the configuration for chosen RAG framework, that will retrieve data from the vector storage based on the query. Use retrieving library/plugin, that supports chosen vector storage within the chosen RAG framework. Retrieving configuration should search for the provided text in the query as argument in the function and return found information with the stored meta data, like paragraph, section, page etc. Important: if for chosen RAG framework, there is no need in separation of search, separation of retrieving from the chosen vector storage, this step may be skipped and marked done.
# Phase 6 (chat feature, as agent, for usage in the cli)
# Phase 6 (models strategy, loading env and update on using openai models)
- [ ] Create file `agent.py`, which will incorporate into itself agent, powered by the chat model. It should use integration with ollama, model specified in .env in property: OLLAMA_CHAT_MODEL
- [ ] Integrate this agent with the existing solution for retrieving, with retrieval.py
- [x] Add `CHAT_STRATEGY`, `EMBEDDING_STRATEGY` fields to .env, possible values are "openai" or "ollama".
- [x] Add `OPENAI_CHAT_URL`, `OPENAI_CHAT_KEY`, `OPENAI_EMBEDDING_MODEL`, `OPENAI_EMBEDDING_BASE_URL`, `OPENAI_EMBEDDING_API_KEY` values to .env.dist with dummy values and to .env with dummy values.
- [x] Add in all important .env wise places in the code loading .env file for it's variables
- [x] Create reusable function, that will return configuration for models. It will check CHAT_STRATEGY and load environment variables accordingly, and return config for usage.
- [x] Add this function everywhere in the codebase where chat or embedding models configuration needed
# Phase 7 (explicit logging and progressbar)
- [x] Add log of how many files currently being processed in enrichment. We need to see how many total to process and how many processed each time new document being processed. If it's possible, also add progressbar showing percentage and those numbers on top of logs.
# Phase 8 (chat feature, as agent, for usage in the cli)
- [ ] Create file `agent.py`, which will incorporate into itself agent, powered by the chat model. It should use integration with openai, env variables are configure
- [ ] Integrate this agent with the existing solution for retrieving, with retrieval.py, if it's possible in current chosen RAG framework
- [ ] Integrate this agent with the cli, as command to start chatting with the agent. If there is a built-in solution for console communication with the agent, initiate this on cli command.

32
services/rag/llamaindex/QWEN.md
View File

@@ -16,6 +16,7 @@ The system has been enhanced to properly handle Russian language documents with
### Architecture Components
- CLI entry point (`cli.py`)
- Configuration module (`config.py`) - manages model strategies and environment variables
- Document enrichment module (`enrichment.py`)
- Vector storage configuration (`vector_storage.py`)
- Retrieval module (`retrieval.py`)
@@ -57,9 +58,15 @@ The system has been enhanced to properly handle Russian language documents with
- Use appropriate log levels (DEBUG, INFO, WARNING, ERROR)
### Environment Variables
- `CHAT_STRATEGY`: Strategy for chat models ("ollama" or "openai")
- `EMBEDDING_STRATEGY`: Strategy for embedding models ("ollama" or "openai")
- `OLLAMA_EMBEDDING_MODEL`: Name of the Ollama model to use for embeddings
- `OLLAMA_CHAT_MODEL`: Name of the Ollama model to use for chat functionality
- API keys for external services (OpenRouter option available but commented out)
- `OPENAI_CHAT_URL`: URL for OpenAI-compatible chat API (when using OpenAI strategy)
- `OPENAI_CHAT_KEY`: API key for OpenAI-compatible chat API (when using OpenAI strategy)
- `OPENAI_EMBEDDING_MODEL`: Name of the OpenAI embedding model (when using OpenAI strategy)
- `OPENAI_EMBEDDING_BASE_URL`: Base URL for OpenAI-compatible embedding API (when using OpenAI strategy)
- `OPENAI_EMBEDDING_API_KEY`: API key for OpenAI-compatible embedding API (when using OpenAI strategy)
### Document Processing
- Support multiple file formats based on EXTENSIONS.md
@@ -105,7 +112,19 @@ The system has been enhanced to properly handle Russian language documents with
- [x] Query processing with metadata retrieval
- [x] Russian language/Cyrillic text encoding support
### Phase 6: Chat Agent
### Phase 6: Model Strategy
- [x] Add `CHAT_STRATEGY` and `EMBEDDING_STRATEGY` environment variables
- [x] Add OpenAI configuration options to .env files
- [x] Create reusable model configuration function
- [x] Update all modules to use the new configuration system
- [x] Ensure proper .env loading across all modules
### Phase 7: Enhanced Logging and Progress Tracking
- [x] Added progress bar using tqdm to show processing progress
- [x] Added logging to show total files and processed count during document enrichment
- [x] Enhanced user feedback during document processing with percentage and counts
### Phase 8: Chat Agent
- [ ] Agent module with Ollama integration
- [ ] Integration with retrieval module
- [ ] CLI command for chat functionality
@@ -115,9 +134,10 @@ The system has been enhanced to properly handle Russian language documents with
llamaindex/
├── venv/ # Python virtual environment
├── cli.py # CLI entry point
├── config.py # Configuration module for model strategies
├── vector_storage.py # Vector storage configuration
├── enrichment.py # Document loading and processing (to be created)
├── retrieval.py # Search and retrieval functionality (to be created)
├── enrichment.py # Document loading and processing
├── retrieval.py # Search and retrieval functionality
├── agent.py # Chat agent implementation (to be created)
├── EXTENSIONS.md # Supported file extensions and loaders
├── .env.dist # Environment variable template
@@ -141,3 +161,7 @@ The system expects documents to be placed in `./../../../data` relative to the p
- Check that the data directory contains supported file types
- Review logs in `logs/dev.log` for detailed error information
- For Russian/Cyrillic text issues, ensure proper encoding handling is configured in both enrichment and retrieval modules
## Important Notes
- Do not test long-running or heavy system scripts during development as they can consume significant system resources and take hours to complete
- The enrich command processes all files in the data directory and may require substantial memory and processing time

4
services/rag/llamaindex/cli.py
View File

@@ -7,6 +7,10 @@ import click
from loguru import logger
import sys
from pathlib import Path
from dotenv import load_dotenv
# Load environment variables from .env file
load_dotenv()
def setup_logging():

144
services/rag/llamaindex/config.py Normal file
View File

@@ -0,0 +1,144 @@
"""
Configuration module for managing model strategies in the RAG solution.
This module provides functions to get appropriate model configurations
based on environment variables for both embeddings and chat models.
"""
import os
from dotenv import load_dotenv
from loguru import logger
# Load environment variables from .env file
load_dotenv()
def get_embedding_model():
"""
Get the appropriate embedding model based on the EMBEDDING_STRATEGY environment variable.
Returns:
An embedding model instance based on the selected strategy
"""
strategy = os.getenv("EMBEDDING_STRATEGY", "ollama").lower()
if strategy == "ollama":
from llama_index.embeddings.ollama import OllamaEmbedding
ollama_embed_model = os.getenv("OLLAMA_EMBEDDING_MODEL", "qwen3-embedding:4b")
ollama_base_url = "http://localhost:11434"
logger.info(f"Initializing Ollama embedding model: {ollama_embed_model}")
embed_model = OllamaEmbedding(
model_name=ollama_embed_model, base_url=ollama_base_url
)
return embed_model
elif strategy == "openai":
from llama_index.embeddings.openai_like import OpenAILikeEmbedding
openai_base_url = os.getenv(
"OPENAI_EMBEDDING_BASE_URL", "https://api.openai.com/v1"
)
openai_api_key = os.getenv("OPENAI_EMBEDDING_API_KEY", "dummy_key_for_template")
openai_embed_model = os.getenv(
"OPENAI_EMBEDDING_MODEL", "text-embedding-3-small"
)
# Set the API key in environment for OpenAI
os.environ["OPENAI_API_KEY"] = openai_api_key
logger.info(f"Initializing OpenAI embedding model: {openai_embed_model}")
embed_model = OpenAILikeEmbedding(
model_name=openai_embed_model,
api_base=openai_base_url,
api_key=openai_api_key,
)
return embed_model
else:
raise ValueError(
f"Unsupported EMBEDDING_STRATEGY: {strategy}. Supported values are 'ollama' and 'openai'"
)
def get_llm_model():
"""
Get the appropriate LLM model based on the CHAT_STRATEGY environment variable.
Returns:
An LLM model instance based on the selected strategy
"""
strategy = os.getenv("CHAT_STRATEGY", "ollama").lower()
if strategy == "ollama":
from llama_index.llms.ollama import Ollama
ollama_chat_model = os.getenv("OLLAMA_CHAT_MODEL", "nemotron-mini:4b")
ollama_base_url = "http://localhost:11434"
logger.info(f"Initializing Ollama chat model: {ollama_chat_model}")
llm = Ollama(
model=ollama_chat_model,
base_url=ollama_base_url,
request_timeout=120.0, # Increase timeout for longer responses
)
return llm
elif strategy == "openai":
from llama_index.llms.openai import OpenAI
openai_chat_url = os.getenv("OPENAI_CHAT_URL", "https://api.openai.com/v1")
openai_chat_key = os.getenv("OPENAI_CHAT_KEY", "dummy_key_for_template")
openai_chat_model = os.getenv("OPENAI_CHAT_MODEL", "gpt-3.5-turbo")
# Set the API key in environment for OpenAI
os.environ["OPENAI_API_KEY"] = openai_chat_key
logger.info(f"Initializing OpenAI chat model: {openai_chat_model}")
llm = OpenAI(model=openai_chat_model, api_base=openai_chat_url)
return llm
else:
raise ValueError(
f"Unsupported CHAT_STRATEGY: {strategy}. Supported values are 'ollama' and 'openai'"
)
def get_model_configurations():
"""
Get both embedding and LLM model configurations based on environment variables.
Returns:
A tuple of (embedding_model, llm_model)
"""
embed_model = get_embedding_model()
llm_model = get_llm_model()
return embed_model, llm_model
def setup_global_models():
"""
Set up the global models in LlamaIndex Settings to prevent defaulting to OpenAI.
"""
from llama_index.core import Settings
embed_model, llm_model = get_model_configurations()
# Set as the global embedding model
Settings.embed_model = embed_model
# Set as the global LLM
Settings.llm = llm_model
logger.info("Global models configured successfully based on environment variables")

17
services/rag/llamaindex/enrichment.py
View File

@@ -13,6 +13,7 @@ from typing import List, Dict, Any
from datetime import datetime
import sqlite3
from loguru import logger
from tqdm import tqdm
from llama_index.core import SimpleDirectoryReader, Document
from llama_index.core.node_parser import SentenceSplitter, CodeSplitter
@@ -20,6 +21,9 @@ from llama_index.core.node_parser import SentenceSplitter, CodeSplitter
from vector_storage import get_vector_store_and_index
# Import the new configuration module
from config import get_embedding_model
class DocumentTracker:
"""Class to handle tracking of processed documents to avoid re-processing."""
@@ -259,13 +263,18 @@ def process_documents_from_data_folder(data_path: str = "../../../data", recursi
processed_count = 0
skipped_count = 0
# Initialize progress bar
pbar = tqdm(total=len(all_files), desc="Processing documents", unit="file")
for file_path in all_files:
logger.info(f"Processing file: {file_path}")
logger.info(f"Processing file: {file_path} ({processed_count + skipped_count + 1}/{len(all_files)})")
# Check if document has already been processed
if tracker.is_document_processed(file_path):
logger.info(f"Skipping already processed file: {file_path}")
skipped_count += 1
pbar.set_postfix({"Processed": processed_count, "Skipped": skipped_count})
pbar.update(1)
continue
try:
@@ -344,11 +353,15 @@ def process_documents_from_data_folder(data_path: str = "../../../data", recursi
# Mark document as processed only after successful insertion
tracker.mark_document_processed(file_path, {"nodes_count": len(documents)})
processed_count += 1
pbar.set_postfix({"Processed": processed_count, "Skipped": skipped_count})
except Exception as e:
logger.error(f"Error processing file {file_path}: {str(e)}")
continue
# Update progress bar regardless of success or failure
pbar.update(1)
pbar.close()
logger.info(f"Document enrichment completed. Processed: {processed_count}, Skipped: {skipped_count}")

71
services/rag/llamaindex/helpers/embedding.py Normal file
View File

@@ -0,0 +1,71 @@
from typing import List
import requests
from llama_index.core.embeddings import BaseEmbedding
from pydantic import Field
class OpenAICompatibleEmbedding(BaseEmbedding):
model: str = Field(...)
api_key: str = Field(...)
api_base: str = Field(...)
timeout: int = Field(default=60)
def __init__(
self,
model: str,
api_key: str,
api_base: str,
timeout: int = 60,
):
self.model = model
self.api_key = api_key
self.api_base = api_base.rstrip("/")
self.timeout = timeout
# ---------- low-level call ----------
def _embed(self, texts: List[str]) -> List[List[float]]:
url = f"{self.api_base}/embeddings"
headers = {
"Authorization": f"Bearer {self.api_key}",
"Content-Type": "application/json",
}
payload = {
"model": self.model,
"input": texts,
}
resp = requests.post(
url,
headers=headers,
json=payload,
timeout=self.timeout,
)
resp.raise_for_status()
data = resp.json()
return [item["embedding"] for item in data["data"]]
# ---------- document embeddings ----------
def _get_text_embedding(self, text: str) -> List[float]:
return self._embed([text])[0]
def _get_text_embeddings(self, texts: List[str]) -> List[List[float]]:
return self._embed(texts)
async def _aget_text_embedding(self, text: str) -> List[float]:
return self._get_text_embedding(text)
async def _aget_text_embeddings(self, texts: List[str]) -> List[List[float]]:
return self._get_text_embeddings(texts)
# ---------- query embeddings (REQUIRED) ----------
def _get_query_embedding(self, query: str) -> List[float]:
# bge-m3 uses same embedding for query & doc
return self._embed([query])[0]
async def _aget_query_embedding(self, query: str) -> List[float]:
return self._get_query_embedding(query)

29
services/rag/llamaindex/retrieval.py
View File

@@ -16,33 +16,8 @@ from pathlib import Path
from vector_storage import get_vector_store_and_index
from llama_index.embeddings.ollama import OllamaEmbedding
import os
def setup_global_models():
"""Set up the global models to prevent defaulting to OpenAI."""
# Set up the embedding model
ollama_embed_model = os.getenv("OLLAMA_EMBEDDING_MODEL", "qwen3-embedding:4b")
ollama_base_url = "http://localhost:11434"
embed_model = OllamaEmbedding(
model_name=ollama_embed_model,
base_url=ollama_base_url
)
# Set as the global embedding model
Settings.embed_model = embed_model
# Set up the LLM model
ollama_chat_model = os.getenv("OLLAMA_CHAT_MODEL", "nemotron-mini:4b")
from llama_index.llms.ollama import Ollama
llm = Ollama(model=ollama_chat_model, base_url=ollama_base_url)
# Set as the global LLM
Settings.llm = llm
# Import the new configuration module
from config import setup_global_models
def initialize_retriever(

100
services/rag/llamaindex/vector_storage.py
View File

@@ -3,18 +3,20 @@ Vector storage configuration for the RAG solution using LlamaIndex and Qdrant.
This module provides initialization and configuration for:
- Qdrant vector storage connection
- Ollama embedding model
- Embedding model based on configured strategy
- Automatic collection creation
"""
import os
from typing import Optional
from llama_index.core import VectorStoreIndex
from llama_index.vector_stores.qdrant import QdrantVectorStore
from llama_index.embeddings.ollama import OllamaEmbedding
from llama_index.llms.ollama import Ollama
from qdrant_client import QdrantClient
from loguru import logger
from qdrant_client import QdrantClient
# Import the new configuration module
from config import get_embedding_model
def initialize_vector_storage(
@@ -22,41 +24,29 @@ def initialize_vector_storage(
host: str = "localhost",
port: int = 6333,
grpc_port: int = 6334,
ollama_base_url: str = "http://localhost:11434",
ollama_embed_model: Optional[str] = None
) -> tuple[QdrantVectorStore, VectorStoreIndex]:
"""
Initialize Qdrant vector storage with Ollama embeddings.
Initialize Qdrant vector storage with embedding model based on configured strategy.
Args:
collection_name: Name of the Qdrant collection
host: Qdrant host address
port: Qdrant REST API port
grpc_port: Qdrant gRPC API port
ollama_base_url: Base URL for Ollama API
ollama_embed_model: Name of the Ollama embedding model
Returns:
Tuple of (QdrantVectorStore, VectorStoreIndex)
"""
logger.info(f"Initializing vector storage with collection: {collection_name}")
# Get embedding model from environment if not provided
if ollama_embed_model is None:
ollama_embed_model = os.getenv("OLLAMA_EMBEDDING_MODEL", "qwen3-embedding:4b")
logger.info(f"Using Ollama embedding model: {ollama_embed_model}")
try:
# Initialize Qdrant client
client = QdrantClient(host=host, port=port)
# Initialize the embedding model first to get the correct dimensions
embed_model = OllamaEmbedding(
model_name=ollama_embed_model,
base_url=ollama_base_url
)
# Get a test embedding to determine the correct size
# Get the embedding model based on the configured strategy
embed_model = get_embedding_model()
# Get a test embedding to determine the correct dimensions
test_embedding = embed_model.get_text_embedding("test")
embedding_dimension = len(test_embedding)
logger.info(f"Detected embedding dimension: {embedding_dimension}")
@@ -71,55 +61,66 @@ def initialize_vector_storage(
collection_name=collection_name,
vectors_config={
"size": embedding_dimension, # Use the actual embedding size
"distance": "Cosine" # Cosine distance is commonly used
}
"distance": "Cosine", # Cosine distance is commonly used
},
)
logger.info(
f"Collection '{collection_name}' created successfully with dimension {embedding_dimension}"
)
logger.info(f"Collection '{collection_name}' created successfully with dimension {embedding_dimension}")
else:
logger.info(f"Collection '{collection_name}' already exists")
# Get the actual collection config to determine the vector size
collection_info = client.get_collection(collection_name)
# Access the vector configuration properly - handle different possible structures
if hasattr(collection_info.config.params, 'vectors') and collection_info.config.params.vectors is not None:
if (
hasattr(collection_info.config.params, "vectors")
and collection_info.config.params.vectors is not None
):
existing_dimension = collection_info.config.params.vectors.size
if existing_dimension != embedding_dimension:
logger.warning(f"Existing collection dimension ({existing_dimension}) doesn't match embedding dimension ({embedding_dimension}), recreating...")
logger.warning(
f"Existing collection dimension ({existing_dimension}) doesn't match embedding dimension ({embedding_dimension}), recreating..."
)
# Delete and recreate the collection with the correct dimensions
client.delete_collection(collection_name)
client.create_collection(
collection_name=collection_name,
vectors_config={
"size": embedding_dimension, # Use the detected size
"distance": "Cosine"
}
"distance": "Cosine",
},
)
logger.info(
f"Collection '{collection_name}' recreated with dimension {embedding_dimension}"
)
logger.info(f"Collection '{collection_name}' recreated with dimension {embedding_dimension}")
else:
logger.info(f"Using existing collection with matching dimension: {embedding_dimension}")
logger.info(
f"Using existing collection with matching dimension: {embedding_dimension}"
)
else:
# Last resort: recreate the collection with the correct dimensions
logger.warning(f"Could not determine vector dimension for existing collection, recreating...")
logger.warning(
f"Could not determine vector dimension for existing collection, recreating..."
)
# Delete and recreate the collection with the correct dimensions
client.delete_collection(collection_name)
client.create_collection(
collection_name=collection_name,
vectors_config={
"size": embedding_dimension, # Use the detected size
"distance": "Cosine"
}
"distance": "Cosine",
},
)
logger.info(
f"Collection '{collection_name}' recreated with dimension {embedding_dimension}"
)
logger.info(f"Collection '{collection_name}' recreated with dimension {embedding_dimension}")
# Initialize the Qdrant vector store
vector_store = QdrantVectorStore(
client=client,
collection_name=collection_name
)
vector_store = QdrantVectorStore(client=client, collection_name=collection_name)
# Create index from vector store with the embedding model we already created
index = VectorStoreIndex.from_vector_store(
vector_store=vector_store,
embed_model=embed_model
vector_store=vector_store, embed_model=embed_model
)
logger.info("Vector storage initialized successfully")
@@ -130,21 +131,6 @@ def initialize_vector_storage(
raise
# Optional: Alternative embedding configuration using OpenAI via OpenRouter
# Uncomment and configure as needed for future use
# from llama_index.embeddings.openai import OpenAIEmbedding
#
# def initialize_openai_embeddings():
# # Use OpenRouter API key from environment
# os.environ["OPENAI_API_KEY"] = os.getenv("OPENROUTER_API_KEY", "")
#
# embed_model = OpenAIEmbedding(
# model="openai/text-embedding-3-small", # Or another suitable model
# api_base="https://openrouter.ai/api/v1" # OpenRouter endpoint
# )
# return embed_model
def get_vector_store_and_index() -> tuple[QdrantVectorStore, VectorStoreIndex]:
"""
Convenience function to get the initialized vector store and index.
@@ -152,9 +138,7 @@ def get_vector_store_and_index() -> tuple[QdrantVectorStore, VectorStoreIndex]:
Returns:
Tuple of (QdrantVectorStore, VectorStoreIndex)
"""
# Get the embedding model name from environment variables
embed_model_name = os.getenv("OLLAMA_EMBEDDING_MODEL", "qwen3-embedding:4b")
return initialize_vector_storage(ollama_embed_model=embed_model_name)
return initialize_vector_storage()
if __name__ == "__main__":

145
unzip_archives.sh Executable file
View File

@@ -0,0 +1,145 @@
#!/bin/bash
# Script to recursively unzip archives in the data folder
# Valid archives are extracted in place, then moved to data-unpacked-archives
# Invalid/broken archives are moved to data-broken-archives
set -e # Exit on any error
DATA_DIR="./data"
UNPACKED_DIR="./data-unpacked-archives"
BROKEN_DIR="./data-broken-archives"
# Create destination directories if they don't exist
mkdir -p "$UNPACKED_DIR"
mkdir -p "$BROKEN_DIR"
# Find all zip files recursively in the data directory
find "$DATA_DIR" -type f -name "*.zip" | while read -r archive; do
echo "Processing: $archive"
# Check if the zip file is valid and not password protected
if unzip -t "$archive" >/dev/null 2>&1; then
echo " Archive is valid, extracting..."
# Extract the archive in the same directory where it's located
ARCHIVE_DIR=$(dirname "$archive")
unzip -o "$archive" -d "$ARCHIVE_DIR"
# Move the processed archive to the unpacked directory
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted and moved to $UNPACKED_DIR"
else
echo " Archive is invalid, password-protected, or in unsupported format"
# Move the broken archive to the broken directory
mv "$archive" "$BROKEN_DIR/"
echo " Moved to $BROKEN_DIR"
fi
done
# Also handle other common archive formats that might be present
for ext in rar 7z tar.gz tar.xz tar.bz2 gz xz bz2 tar; do
find "$DATA_DIR" -type f -name "*.$ext" | while read -r archive; do
echo "Processing: $archive (non-zip format)"
case $ext in
rar)
if command -v unrar >/dev/null 2>&1; then
if unrar l "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
unrar x "$archive" "$ARCHIVE_DIR"/
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted RAR and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process RAR, moved to $BROKEN_DIR"
fi
else
mv "$archive" "$BROKEN_DIR/"
echo " unrar not available, moved to $BROKEN_DIR"
fi
;;
7z)
if command -v 7z >/dev/null 2>&1; then
if 7z l "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
7z x "$archive" -o"$ARCHIVE_DIR"/
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted 7z and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process 7z, moved to $BROKEN_DIR"
fi
else
mv "$archive" "$BROKEN_DIR/"
echo " 7z not available, moved to $BROKEN_DIR"
fi
;;
tar.gz|tgz|gz)
if gunzip -t "$archive" >/dev/null 2>&1 || tar -tzf "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
if [[ "$ext" == "gz" ]]; then
# For gz files, we need to decompress in place
cp "$archive" "$ARCHIVE_DIR/"
gzip -d "$ARCHIVE_DIR/$(basename "$archive")"
else
tar -xzf "$archive" -C "$ARCHIVE_DIR"/
fi
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted $ext and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process $ext, moved to $BROKEN_DIR"
fi
;;
tar.bz2|bz2)
if bzip2 -t "$archive" >/dev/null 2>&1 || tar -tjf "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
if [[ "$ext" == "bz2" ]]; then
# For bz2 files, we need to decompress in place
cp "$archive" "$ARCHIVE_DIR/"
bzip2 -d "$ARCHIVE_DIR/$(basename "$archive")"
else
tar -xjf "$archive" -C "$ARCHIVE_DIR"/
fi
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted $ext and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process $ext, moved to $BROKEN_DIR"
fi
;;
tar.xz|xz)
if xz -t "$archive" >/dev/null 2>&1 || tar -tJf "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
if [[ "$ext" == "xz" ]]; then
# For xz files, we need to decompress in place
cp "$archive" "$ARCHIVE_DIR/"
xz -d "$ARCHIVE_DIR/$(basename "$archive")"
else
tar -xJf "$archive" -C "$ARCHIVE_DIR"/
fi
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted $ext and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process $ext, moved to $BROKEN_DIR"
fi
;;
tar)
if tar -tf "$archive" >/dev/null 2>&1; then
ARCHIVE_DIR=$(dirname "$archive")
tar -xf "$archive" -C "$ARCHIVE_DIR"/
mv "$archive" "$UNPACKED_DIR/"
echo " Successfully extracted TAR and moved to $UNPACKED_DIR"
else
mv "$archive" "$BROKEN_DIR/"
echo " Could not process TAR, moved to $BROKEN_DIR"
fi
;;
esac
done
done
echo "Processing complete!"