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- import logging
- import os
- import uuid
- from typing import Optional, Union
- import asyncio
- import requests
- from huggingface_hub import snapshot_download
- from langchain.retrievers import ContextualCompressionRetriever, EnsembleRetriever
- from langchain_community.retrievers import BM25Retriever
- from langchain_core.documents import Document
- from open_webui.config import VECTOR_DB
- from open_webui.retrieval.vector.connector import VECTOR_DB_CLIENT
- from open_webui.utils.misc import get_last_user_message
- from open_webui.models.users import UserModel
- from open_webui.env import (
- SRC_LOG_LEVELS,
- OFFLINE_MODE,
- ENABLE_FORWARD_USER_INFO_HEADERS,
- )
- log = logging.getLogger(__name__)
- log.setLevel(SRC_LOG_LEVELS["RAG"])
- from typing import Any
- from langchain_core.callbacks import CallbackManagerForRetrieverRun
- from langchain_core.retrievers import BaseRetriever
- class VectorSearchRetriever(BaseRetriever):
- collection_name: Any
- embedding_function: Any
- top_k: int
- def _get_relevant_documents(
- self,
- query: str,
- *,
- run_manager: CallbackManagerForRetrieverRun,
- ) -> list[Document]:
- result = VECTOR_DB_CLIENT.search(
- collection_name=self.collection_name,
- vectors=[self.embedding_function(query)],
- limit=self.top_k,
- )
- ids = result.ids[0]
- metadatas = result.metadatas[0]
- documents = result.documents[0]
- results = []
- for idx in range(len(ids)):
- results.append(
- Document(
- metadata=metadatas[idx],
- page_content=documents[idx],
- )
- )
- return results
- def query_doc(
- collection_name: str, query_embedding: list[float], k: int, user: UserModel = None
- ):
- try:
- result = VECTOR_DB_CLIENT.search(
- collection_name=collection_name,
- vectors=[query_embedding],
- limit=k,
- )
- if result:
- log.info(f"query_doc:result {result.ids} {result.metadatas}")
- return result
- except Exception as e:
- print(e)
- raise e
- def query_doc_with_hybrid_search(
- collection_name: str,
- query: str,
- embedding_function,
- k: int,
- reranking_function,
- r: float,
- ) -> dict:
- try:
- result = VECTOR_DB_CLIENT.get(collection_name=collection_name)
- bm25_retriever = BM25Retriever.from_texts(
- texts=result.documents[0],
- metadatas=result.metadatas[0],
- )
- bm25_retriever.k = k
- vector_search_retriever = VectorSearchRetriever(
- collection_name=collection_name,
- embedding_function=embedding_function,
- top_k=k,
- )
- ensemble_retriever = EnsembleRetriever(
- retrievers=[bm25_retriever, vector_search_retriever], weights=[0.5, 0.5]
- )
- compressor = RerankCompressor(
- embedding_function=embedding_function,
- top_n=k,
- reranking_function=reranking_function,
- r_score=r,
- )
- compression_retriever = ContextualCompressionRetriever(
- base_compressor=compressor, base_retriever=ensemble_retriever
- )
- result = compression_retriever.invoke(query)
- result = {
- "distances": [[d.metadata.get("score") for d in result]],
- "documents": [[d.page_content for d in result]],
- "metadatas": [[d.metadata for d in result]],
- }
- log.info(
- "query_doc_with_hybrid_search:result "
- + f'{result["metadatas"]} {result["distances"]}'
- )
- return result
- except Exception as e:
- raise e
- def merge_and_sort_query_results(
- query_results: list[dict], k: int, reverse: bool = False
- ) -> list[dict]:
- # Initialize lists to store combined data
- combined_distances = []
- combined_documents = []
- combined_metadatas = []
- for data in query_results:
- combined_distances.extend(data["distances"][0])
- combined_documents.extend(data["documents"][0])
- combined_metadatas.extend(data["metadatas"][0])
- # Create a list of tuples (distance, document, metadata)
- combined = list(zip(combined_distances, combined_documents, combined_metadatas))
- # Sort the list based on distances
- combined.sort(key=lambda x: x[0], reverse=reverse)
- # We don't have anything :-(
- if not combined:
- sorted_distances = []
- sorted_documents = []
- sorted_metadatas = []
- else:
- # Unzip the sorted list
- sorted_distances, sorted_documents, sorted_metadatas = zip(*combined)
- # Slicing the lists to include only k elements
- sorted_distances = list(sorted_distances)[:k]
- sorted_documents = list(sorted_documents)[:k]
- sorted_metadatas = list(sorted_metadatas)[:k]
- # Create the output dictionary
- result = {
- "distances": [sorted_distances],
- "documents": [sorted_documents],
- "metadatas": [sorted_metadatas],
- }
- return result
- def query_collection(
- collection_names: list[str],
- queries: list[str],
- embedding_function,
- k: int,
- ) -> dict:
- results = []
- for query in queries:
- query_embedding = embedding_function(query)
- for collection_name in collection_names:
- if collection_name:
- try:
- result = query_doc(
- collection_name=collection_name,
- k=k,
- query_embedding=query_embedding,
- )
- if result is not None:
- results.append(result.model_dump())
- except Exception as e:
- log.exception(f"Error when querying the collection: {e}")
- else:
- pass
- if VECTOR_DB == "chroma":
- # Chroma uses unconventional cosine similarity, so we don't need to reverse the results
- # https://docs.trychroma.com/docs/collections/configure#configuring-chroma-collections
- return merge_and_sort_query_results(results, k=k, reverse=False)
- else:
- return merge_and_sort_query_results(results, k=k, reverse=True)
- def query_collection_with_hybrid_search(
- collection_names: list[str],
- queries: list[str],
- embedding_function,
- k: int,
- reranking_function,
- r: float,
- ) -> dict:
- results = []
- error = False
- for collection_name in collection_names:
- try:
- for query in queries:
- result = query_doc_with_hybrid_search(
- collection_name=collection_name,
- query=query,
- embedding_function=embedding_function,
- k=k,
- reranking_function=reranking_function,
- r=r,
- )
- results.append(result)
- except Exception as e:
- log.exception(
- "Error when querying the collection with " f"hybrid_search: {e}"
- )
- error = True
- if error:
- raise Exception(
- "Hybrid search failed for all collections. Using Non hybrid search as fallback."
- )
- if VECTOR_DB == "chroma":
- # Chroma uses unconventional cosine similarity, so we don't need to reverse the results
- # https://docs.trychroma.com/docs/collections/configure#configuring-chroma-collections
- return merge_and_sort_query_results(results, k=k, reverse=False)
- else:
- return merge_and_sort_query_results(results, k=k, reverse=True)
- def get_embedding_function(
- embedding_engine,
- embedding_model,
- embedding_function,
- url,
- key,
- embedding_batch_size,
- ):
- if embedding_engine == "":
- return lambda query, user=None: embedding_function.encode(query).tolist()
- elif embedding_engine in ["ollama", "openai"]:
- func = lambda query, user=None: generate_embeddings(
- engine=embedding_engine,
- model=embedding_model,
- text=query,
- url=url,
- key=key,
- user=user,
- )
- def generate_multiple(query, user, func):
- if isinstance(query, list):
- embeddings = []
- for i in range(0, len(query), embedding_batch_size):
- embeddings.extend(
- func(query[i : i + embedding_batch_size], user=user)
- )
- return embeddings
- else:
- return func(query, user)
- return lambda query, user=None: generate_multiple(query, user, func)
- else:
- raise ValueError(f"Unknown embedding engine: {embedding_engine}")
- def get_sources_from_files(
- files,
- queries,
- embedding_function,
- k,
- reranking_function,
- r,
- hybrid_search,
- ):
- log.debug(f"files: {files} {queries} {embedding_function} {reranking_function}")
- extracted_collections = []
- relevant_contexts = []
- for file in files:
- if file.get("context") == "full":
- context = {
- "documents": [[file.get("file").get("data", {}).get("content")]],
- "metadatas": [[{"file_id": file.get("id"), "name": file.get("name")}]],
- }
- else:
- context = None
- collection_names = []
- if file.get("type") == "collection":
- if file.get("legacy"):
- collection_names = file.get("collection_names", [])
- else:
- collection_names.append(file["id"])
- elif file.get("collection_name"):
- collection_names.append(file["collection_name"])
- elif file.get("id"):
- if file.get("legacy"):
- collection_names.append(f"{file['id']}")
- else:
- collection_names.append(f"file-{file['id']}")
- collection_names = set(collection_names).difference(extracted_collections)
- if not collection_names:
- log.debug(f"skipping {file} as it has already been extracted")
- continue
- try:
- context = None
- if file.get("type") == "text":
- context = file["content"]
- else:
- if hybrid_search:
- try:
- context = query_collection_with_hybrid_search(
- collection_names=collection_names,
- queries=queries,
- embedding_function=embedding_function,
- k=k,
- reranking_function=reranking_function,
- r=r,
- )
- except Exception as e:
- log.debug(
- "Error when using hybrid search, using"
- " non hybrid search as fallback."
- )
- if (not hybrid_search) or (context is None):
- context = query_collection(
- collection_names=collection_names,
- queries=queries,
- embedding_function=embedding_function,
- k=k,
- )
- except Exception as e:
- log.exception(e)
- extracted_collections.extend(collection_names)
- if context:
- if "data" in file:
- del file["data"]
- relevant_contexts.append({**context, "file": file})
- sources = []
- for context in relevant_contexts:
- try:
- if "documents" in context:
- if "metadatas" in context:
- source = {
- "source": context["file"],
- "document": context["documents"][0],
- "metadata": context["metadatas"][0],
- }
- if "distances" in context and context["distances"]:
- source["distances"] = context["distances"][0]
- sources.append(source)
- except Exception as e:
- log.exception(e)
- return sources
- def get_model_path(model: str, update_model: bool = False):
- # Construct huggingface_hub kwargs with local_files_only to return the snapshot path
- cache_dir = os.getenv("SENTENCE_TRANSFORMERS_HOME")
- local_files_only = not update_model
- if OFFLINE_MODE:
- local_files_only = True
- snapshot_kwargs = {
- "cache_dir": cache_dir,
- "local_files_only": local_files_only,
- }
- log.debug(f"model: {model}")
- log.debug(f"snapshot_kwargs: {snapshot_kwargs}")
- # Inspiration from upstream sentence_transformers
- if (
- os.path.exists(model)
- or ("\\" in model or model.count("/") > 1)
- and local_files_only
- ):
- # If fully qualified path exists, return input, else set repo_id
- return model
- elif "/" not in model:
- # Set valid repo_id for model short-name
- model = "sentence-transformers" + "/" + model
- snapshot_kwargs["repo_id"] = model
- # Attempt to query the huggingface_hub library to determine the local path and/or to update
- try:
- model_repo_path = snapshot_download(**snapshot_kwargs)
- log.debug(f"model_repo_path: {model_repo_path}")
- return model_repo_path
- except Exception as e:
- log.exception(f"Cannot determine model snapshot path: {e}")
- return model
- def generate_openai_batch_embeddings(
- model: str,
- texts: list[str],
- url: str = "https://api.openai.com/v1",
- key: str = "",
- user: UserModel = None,
- ) -> Optional[list[list[float]]]:
- try:
- r = requests.post(
- f"{url}/embeddings",
- headers={
- "Content-Type": "application/json",
- "Authorization": f"Bearer {key}",
- **(
- {
- "X-OpenWebUI-User-Name": user.name,
- "X-OpenWebUI-User-Id": user.id,
- "X-OpenWebUI-User-Email": user.email,
- "X-OpenWebUI-User-Role": user.role,
- }
- if ENABLE_FORWARD_USER_INFO_HEADERS and user
- else {}
- ),
- },
- json={"input": texts, "model": model},
- )
- r.raise_for_status()
- data = r.json()
- if "data" in data:
- return [elem["embedding"] for elem in data["data"]]
- else:
- raise "Something went wrong :/"
- except Exception as e:
- print(e)
- return None
- def generate_ollama_batch_embeddings(
- model: str, texts: list[str], url: str, key: str = "", user: UserModel = None
- ) -> Optional[list[list[float]]]:
- try:
- r = requests.post(
- f"{url}/api/embed",
- headers={
- "Content-Type": "application/json",
- "Authorization": f"Bearer {key}",
- **(
- {
- "X-OpenWebUI-User-Name": user.name,
- "X-OpenWebUI-User-Id": user.id,
- "X-OpenWebUI-User-Email": user.email,
- "X-OpenWebUI-User-Role": user.role,
- }
- if ENABLE_FORWARD_USER_INFO_HEADERS
- else {}
- ),
- },
- json={"input": texts, "model": model},
- )
- r.raise_for_status()
- data = r.json()
- if "embeddings" in data:
- return data["embeddings"]
- else:
- raise "Something went wrong :/"
- except Exception as e:
- print(e)
- return None
- def generate_embeddings(engine: str, model: str, text: Union[str, list[str]], **kwargs):
- url = kwargs.get("url", "")
- key = kwargs.get("key", "")
- user = kwargs.get("user")
- if engine == "ollama":
- if isinstance(text, list):
- embeddings = generate_ollama_batch_embeddings(
- **{"model": model, "texts": text, "url": url, "key": key, "user": user}
- )
- else:
- embeddings = generate_ollama_batch_embeddings(
- **{
- "model": model,
- "texts": [text],
- "url": url,
- "key": key,
- "user": user,
- }
- )
- return embeddings[0] if isinstance(text, str) else embeddings
- elif engine == "openai":
- if isinstance(text, list):
- embeddings = generate_openai_batch_embeddings(model, text, url, key, user)
- else:
- embeddings = generate_openai_batch_embeddings(model, [text], url, key, user)
- return embeddings[0] if isinstance(text, str) else embeddings
- import operator
- from typing import Optional, Sequence
- from langchain_core.callbacks import Callbacks
- from langchain_core.documents import BaseDocumentCompressor, Document
- class RerankCompressor(BaseDocumentCompressor):
- embedding_function: Any
- top_n: int
- reranking_function: Any
- r_score: float
- class Config:
- extra = "forbid"
- arbitrary_types_allowed = True
- def compress_documents(
- self,
- documents: Sequence[Document],
- query: str,
- callbacks: Optional[Callbacks] = None,
- ) -> Sequence[Document]:
- reranking = self.reranking_function is not None
- if reranking:
- scores = self.reranking_function.predict(
- [(query, doc.page_content) for doc in documents]
- )
- else:
- from sentence_transformers import util
- query_embedding = self.embedding_function(query)
- document_embedding = self.embedding_function(
- [doc.page_content for doc in documents]
- )
- scores = util.cos_sim(query_embedding, document_embedding)[0]
- docs_with_scores = list(zip(documents, scores.tolist()))
- if self.r_score:
- docs_with_scores = [
- (d, s) for d, s in docs_with_scores if s >= self.r_score
- ]
- result = sorted(docs_with_scores, key=operator.itemgetter(1), reverse=True)
- final_results = []
- for doc, doc_score in result[: self.top_n]:
- metadata = doc.metadata
- metadata["score"] = doc_score
- doc = Document(
- page_content=doc.page_content,
- metadata=metadata,
- )
- final_results.append(doc)
- return final_results
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