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Qdrant

QdrantVectorStore #

Bases: BasePydanticVectorStore

Qdrant Vector Store.

In this vector store, embeddings and docs are stored within a Qdrant collection.

During query time, the index uses Qdrant to query for the top k most similar nodes.

Parameters:

Name Type Description Default
collection_name str

(str): name of the Qdrant collection

required
client Optional[QdrantClient]

QdrantClient instance from qdrant-client package

None
aclient Optional[AsyncQdrantClient]

AsyncQdrantClient instance from qdrant-client package

None
url Optional[str]

url of the Qdrant instance

None
api_key Optional[str]

API key for authenticating with Qdrant

None
batch_size int

number of points to upload in a single request to Qdrant. Defaults to 64

64
parallel int

number of parallel processes to use during upload. Defaults to 1

1
max_retries int

maximum number of retries in case of a failure. Defaults to 3

3
client_kwargs Optional[dict]

additional kwargs for QdrantClient and AsyncQdrantClient

None
enable_hybrid bool

whether to enable hybrid search using dense and sparse vectors

False
fastembed_sparse_model Optional[str]

name of the FastEmbed sparse model to use, if any

None
sparse_doc_fn Optional[SparseEncoderCallable]

function to encode sparse vectors

None
sparse_query_fn Optional[SparseEncoderCallable]

function to encode sparse queries

None
hybrid_fusion_fn Optional[HybridFusionCallable]

function to fuse hybrid search results

None
index_doc_id bool

whether to create a payload index for the document ID. Defaults to True

True
text_key str

Name of the field holding the text information, Defaults to 'text'

'text'

Examples:

pip install llama-index-vector-stores-qdrant

import qdrant_client
from llama_index.vector_stores.qdrant import QdrantVectorStore

client = qdrant_client.QdrantClient()

vector_store = QdrantVectorStore(
    collection_name="example_collection", client=client
)
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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class QdrantVectorStore(BasePydanticVectorStore):
    """
    Qdrant Vector Store.

    In this vector store, embeddings and docs are stored within a
    Qdrant collection.

    During query time, the index uses Qdrant to query for the top
    k most similar nodes.

    Args:
        collection_name: (str): name of the Qdrant collection
        client (Optional[QdrantClient]): QdrantClient instance from `qdrant-client` package
        aclient (Optional[AsyncQdrantClient]): AsyncQdrantClient instance from `qdrant-client` package
        url (Optional[str]): url of the Qdrant instance
        api_key (Optional[str]): API key for authenticating with Qdrant
        batch_size (int): number of points to upload in a single request to Qdrant. Defaults to 64
        parallel (int): number of parallel processes to use during upload. Defaults to 1
        max_retries (int): maximum number of retries in case of a failure. Defaults to 3
        client_kwargs (Optional[dict]): additional kwargs for QdrantClient and AsyncQdrantClient
        enable_hybrid (bool): whether to enable hybrid search using dense and sparse vectors
        fastembed_sparse_model (Optional[str]): name of the FastEmbed sparse model to use, if any
        sparse_doc_fn (Optional[SparseEncoderCallable]): function to encode sparse vectors
        sparse_query_fn (Optional[SparseEncoderCallable]): function to encode sparse queries
        hybrid_fusion_fn (Optional[HybridFusionCallable]): function to fuse hybrid search results
        index_doc_id (bool): whether to create a payload index for the document ID. Defaults to True
        text_key (str): Name of the field holding the text information, Defaults to 'text'

    Examples:
        `pip install llama-index-vector-stores-qdrant`

        ```python
        import qdrant_client
        from llama_index.vector_stores.qdrant import QdrantVectorStore

        client = qdrant_client.QdrantClient()

        vector_store = QdrantVectorStore(
            collection_name="example_collection", client=client
        )
        ```
    """

    stores_text: bool = True
    flat_metadata: bool = False

    collection_name: str
    url: Optional[str]
    api_key: Optional[str]
    batch_size: int
    parallel: int
    max_retries: int
    client_kwargs: dict = Field(default_factory=dict)
    enable_hybrid: bool
    index_doc_id: bool
    fastembed_sparse_model: Optional[str]
    text_key: Optional[str]

    _client: QdrantClient = PrivateAttr()
    _aclient: AsyncQdrantClient = PrivateAttr()
    _collection_initialized: bool = PrivateAttr()
    _sparse_doc_fn: Optional[SparseEncoderCallable] = PrivateAttr()
    _sparse_query_fn: Optional[SparseEncoderCallable] = PrivateAttr()
    _hybrid_fusion_fn: Optional[HybridFusionCallable] = PrivateAttr()
    _dense_config: Optional[rest.VectorParams] = PrivateAttr()
    _sparse_config: Optional[rest.SparseVectorParams] = PrivateAttr()
    _quantization_config: Optional[QuantizationConfig] = PrivateAttr()

    def __init__(
        self,
        collection_name: str,
        client: Optional[QdrantClient] = None,
        aclient: Optional[AsyncQdrantClient] = None,
        url: Optional[str] = None,
        api_key: Optional[str] = None,
        batch_size: int = 64,
        parallel: int = 1,
        max_retries: int = 3,
        client_kwargs: Optional[dict] = None,
        dense_config: Optional[rest.VectorParams] = None,
        sparse_config: Optional[rest.SparseVectorParams] = None,
        quantization_config: Optional[QuantizationConfig] = None,
        enable_hybrid: bool = False,
        fastembed_sparse_model: Optional[str] = None,
        sparse_doc_fn: Optional[SparseEncoderCallable] = None,
        sparse_query_fn: Optional[SparseEncoderCallable] = None,
        hybrid_fusion_fn: Optional[HybridFusionCallable] = None,
        index_doc_id: bool = True,
        text_key: Optional[str] = "text",
        **kwargs: Any,
    ) -> None:
        """Init params."""
        super().__init__(
            collection_name=collection_name,
            url=url,
            api_key=api_key,
            batch_size=batch_size,
            parallel=parallel,
            max_retries=max_retries,
            client_kwargs=client_kwargs or {},
            enable_hybrid=enable_hybrid,
            index_doc_id=index_doc_id,
            fastembed_sparse_model=fastembed_sparse_model,
            text_key=text_key,
        )

        if (
            client is None
            and aclient is None
            and (url is None or api_key is None or collection_name is None)
        ):
            raise ValueError(
                "Must provide either a QdrantClient instance or a url and api_key."
            )

        if client is None and aclient is None:
            client_kwargs = client_kwargs or {}
            self._client = qdrant_client.QdrantClient(
                url=url, api_key=api_key, **client_kwargs
            )
            self._aclient = qdrant_client.AsyncQdrantClient(
                url=url, api_key=api_key, **client_kwargs
            )
        else:
            if client is not None and aclient is not None:
                logger.warning(
                    "Both client and aclient are provided. If using `:memory:` "
                    "mode, the data between clients is not synced."
                )

            self._client = client
            self._aclient = aclient

        if self._client is not None:
            self._collection_initialized = self._collection_exists(collection_name)
        else:
            #  need to do lazy init for async clients
            self._collection_initialized = False

        # setup hybrid search if enabled
        if enable_hybrid or fastembed_sparse_model is not None:
            enable_hybrid = True
            self._sparse_doc_fn = sparse_doc_fn or self.get_default_sparse_doc_encoder(
                collection_name, fastembed_sparse_model=fastembed_sparse_model
            )
            self._sparse_query_fn = (
                sparse_query_fn
                or self.get_default_sparse_query_encoder(
                    collection_name, fastembed_sparse_model=fastembed_sparse_model
                )
            )
            self._hybrid_fusion_fn = hybrid_fusion_fn or cast(
                HybridFusionCallable, relative_score_fusion
            )

        self._sparse_config = sparse_config
        self._dense_config = dense_config
        self._quantization_config = quantization_config

    @classmethod
    def class_name(cls) -> str:
        return "QdrantVectorStore"

    def set_query_functions(
        self,
        sparse_doc_fn: Optional[SparseEncoderCallable] = None,
        sparse_query_fn: Optional[SparseEncoderCallable] = None,
        hybrid_fusion_fn: Optional[HybridFusionCallable] = None,
    ):
        self._sparse_doc_fn = sparse_doc_fn
        self._sparse_query_fn = sparse_query_fn
        self._hybrid_fusion_fn = hybrid_fusion_fn

    def _build_points(
        self, nodes: List[BaseNode], sparse_vector_name: str
    ) -> Tuple[List[Any], List[str]]:
        ids = []
        points = []
        for node_batch in iter_batch(nodes, self.batch_size):
            node_ids = []
            vectors: List[Any] = []
            sparse_vectors: List[List[float]] = []
            sparse_indices: List[List[int]] = []
            payloads = []

            if self.enable_hybrid and self._sparse_doc_fn is not None:
                sparse_indices, sparse_vectors = self._sparse_doc_fn(
                    [
                        node.get_content(metadata_mode=MetadataMode.EMBED)
                        for node in node_batch
                    ],
                )

            for i, node in enumerate(node_batch):
                assert isinstance(node, BaseNode)
                node_ids.append(node.node_id)

                if self.enable_hybrid:
                    if (
                        len(sparse_vectors) > 0
                        and len(sparse_indices) > 0
                        and len(sparse_vectors) == len(sparse_indices)
                    ):
                        vectors.append(
                            {
                                # Dynamically switch between the old and new sparse vector name
                                sparse_vector_name: rest.SparseVector(
                                    indices=sparse_indices[i],
                                    values=sparse_vectors[i],
                                ),
                                DENSE_VECTOR_NAME: node.get_embedding(),
                            }
                        )
                    else:
                        vectors.append(
                            {
                                DENSE_VECTOR_NAME: node.get_embedding(),
                            }
                        )
                else:
                    vectors.append(node.get_embedding())

                metadata = node_to_metadata_dict(
                    node, remove_text=False, flat_metadata=self.flat_metadata
                )

                payloads.append(metadata)

            points.extend(
                [
                    rest.PointStruct(id=node_id, payload=payload, vector=vector)
                    for node_id, payload, vector in zip(node_ids, payloads, vectors)
                ]
            )

            ids.extend(node_ids)

        return points, ids

    def get_nodes(
        self,
        node_ids: Optional[List[str]] = None,
        filters: Optional[MetadataFilters] = None,
        limit: Optional[int] = None,
    ) -> List[BaseNode]:
        """
        Get nodes from the index.

        Args:
            node_ids (Optional[List[str]]): List of node IDs to retrieve.
            filters (Optional[MetadataFilters]): Metadata filters to apply.

        Returns:
            List[BaseNode]: List of nodes retrieved from the index.
        """
        should = []
        if node_ids is not None:
            should = [
                HasIdCondition(
                    has_id=node_ids,
                )
            ]
            # If we pass a node_ids list,
            # we can limit the search to only those nodes
            # or less if limit is provided
            limit = len(node_ids) if limit is None else min(len(node_ids), limit)

        if filters is not None:
            filter = self._build_subfilter(filters)
            if filter.should is None:
                filter.should = should
            else:
                filter.should.extend(should)
        else:
            filter = Filter(should=should)

        # If we pass an empty list, Qdrant will not return any results
        filter.must = filter.must if filter.must and len(filter.must) > 0 else None
        filter.should = (
            filter.should if filter.should and len(filter.should) > 0 else None
        )
        filter.must_not = (
            filter.must_not if filter.must_not and len(filter.must_not) > 0 else None
        )

        response = self._client.scroll(
            collection_name=self.collection_name,
            limit=limit or 9999,
            scroll_filter=filter,
            with_vectors=True,
        )

        return self.parse_to_query_result(response[0]).nodes

    async def aget_nodes(
        self,
        node_ids: Optional[List[str]] = None,
        filters: Optional[MetadataFilters] = None,
        limit: Optional[int] = None,
    ) -> List[BaseNode]:
        """
        Asynchronous method to get nodes from the index.

        Args:
            node_ids (Optional[List[str]]): List of node IDs to retrieve.
            filters (Optional[MetadataFilters]): Metadata filters to apply.

        Returns:
            List[BaseNode]: List of nodes retrieved from the index.
        """
        should = []
        if node_ids is not None:
            should = [
                HasIdCondition(
                    has_id=node_ids,
                )
            ]
            # If we pass a node_ids list,
            # we can limit the search to only those nodes
            # or less if limit is provided
            limit = len(node_ids) if limit is None else min(len(node_ids), limit)

        if filters is not None:
            filter = self._build_subfilter(filters)
            if filter.should is None:
                filter.should = should
            else:
                filter.should.extend(should)
        else:
            filter = Filter(should=should)

        response = await self._aclient.scroll(
            collection_name=self.collection_name,
            limit=limit or 9999,
            scroll_filter=filter,
            with_vectors=True,
        )

        return self.parse_to_query_result(response[0]).nodes

    def add(self, nodes: List[BaseNode], **add_kwargs: Any) -> List[str]:
        """
        Add nodes to index.

        Args:
            nodes: List[BaseNode]: list of nodes with embeddings

        """
        if len(nodes) > 0 and not self._collection_initialized:
            self._create_collection(
                collection_name=self.collection_name,
                vector_size=len(nodes[0].get_embedding()),
            )

        sparse_vector_name = self.sparse_vector_name()
        points, ids = self._build_points(nodes, sparse_vector_name)

        self._client.upload_points(
            collection_name=self.collection_name,
            points=points,
            batch_size=self.batch_size,
            parallel=self.parallel,
            max_retries=self.max_retries,
            wait=True,
        )

        return ids

    async def async_add(self, nodes: List[BaseNode], **kwargs: Any) -> List[str]:
        """
        Asynchronous method to add nodes to Qdrant index.

        Args:
            nodes: List[BaseNode]: List of nodes with embeddings.

        Returns:
            List of node IDs that were added to the index.

        Raises:
            ValueError: If trying to using async methods without aclient
        """
        from qdrant_client.http.exceptions import UnexpectedResponse

        collection_initialized = await self._acollection_exists(self.collection_name)

        if len(nodes) > 0 and not collection_initialized:
            await self._acreate_collection(
                collection_name=self.collection_name,
                vector_size=len(nodes[0].get_embedding()),
            )

        sparse_vector_name = await self.asparse_vector_name()
        points, ids = self._build_points(nodes, sparse_vector_name)

        for batch in iter_batch(points, self.batch_size):
            retries = 0
            while retries < self.max_retries:
                try:
                    await self._aclient.upsert(
                        collection_name=self.collection_name,
                        points=batch,
                    )
                    break
                except (RpcError, UnexpectedResponse) as exc:
                    retries += 1
                    if retries >= self.max_retries:
                        raise exc  # noqa: TRY201

        return ids

    def delete(self, ref_doc_id: str, **delete_kwargs: Any) -> None:
        """
        Delete nodes using with ref_doc_id.

        Args:
            ref_doc_id (str): The doc_id of the document to delete.

        """
        self._client.delete(
            collection_name=self.collection_name,
            points_selector=rest.Filter(
                must=[
                    rest.FieldCondition(
                        key=DOCUMENT_ID_KEY, match=rest.MatchValue(value=ref_doc_id)
                    )
                ]
            ),
        )

    async def adelete(self, ref_doc_id: str, **delete_kwargs: Any) -> None:
        """
        Asynchronous method to delete nodes using with ref_doc_id.

        Args:
            ref_doc_id (str): The doc_id of the document to delete.

        """
        await self._aclient.delete(
            collection_name=self.collection_name,
            points_selector=rest.Filter(
                must=[
                    rest.FieldCondition(
                        key=DOCUMENT_ID_KEY, match=rest.MatchValue(value=ref_doc_id)
                    )
                ]
            ),
        )

    def delete_nodes(
        self,
        node_ids: Optional[List[str]] = None,
        filters: Optional[MetadataFilters] = None,
        **delete_kwargs: Any,
    ) -> None:
        """
        Delete nodes using with node_ids.

        Args:
            node_ids (Optional[List[str]): List of node IDs to delete.
            filters (Optional[MetadataFilters]): Metadata filters to apply.
        """
        should = []
        if node_ids is not None:
            should = [
                HasIdCondition(
                    has_id=node_ids,
                )
            ]

        if filters is not None:
            filter = self._build_subfilter(filters)
            if filter.should is None:
                filter.should = should
            else:
                filter.should.extend(should)
        else:
            filter = Filter(should=should)

        self._client.delete(
            collection_name=self.collection_name,
            points_selector=filter,
        )

    async def adelete_nodes(
        self,
        node_ids: Optional[List[str]] = None,
        filters: Optional[MetadataFilters] = None,
        **delete_kwargs: Any,
    ) -> None:
        """
        Asynchronous method to delete nodes using with node_ids.

        Args:
            node_ids (Optional[List[str]): List of node IDs to delete.
            filters (Optional[MetadataFilters]): Metadata filters to apply.
        """
        should = []
        if node_ids is not None:
            should = [
                HasIdCondition(
                    has_id=node_ids,
                )
            ]

        if filters is not None:
            filter = self._build_subfilter(filters)
            if filter.should is None:
                filter.should = should
            else:
                filter.should.extend(should)
        else:
            filter = Filter(should=should)

        await self._aclient.delete(
            collection_name=self.collection_name,
            points_selector=filter,
        )

    def clear(self) -> None:
        """
        Clear the index.
        """
        self._client.delete_collection(collection_name=self.collection_name)
        self._collection_initialized = False

    async def aclear(self) -> None:
        """
        Asynchronous method to clear the index.
        """
        await self._aclient.delete_collection(collection_name=self.collection_name)
        self._collection_initialized = False

    @property
    def client(self) -> Any:
        """Return the Qdrant client."""
        return self._client

    def _create_collection(self, collection_name: str, vector_size: int) -> None:
        """Create a Qdrant collection."""
        from qdrant_client.http import models as rest
        from qdrant_client.http.exceptions import UnexpectedResponse

        dense_config = self._dense_config or rest.VectorParams(
            size=vector_size,
            distance=rest.Distance.COSINE,
        )

        sparse_config = self._sparse_config or rest.SparseVectorParams(
            index=rest.SparseIndexParams(),
            modifier=(
                rest.Modifier.IDF
                if self.fastembed_sparse_model in IDF_EMBEDDING_MODELS
                else None
            ),
        )

        try:
            if self.enable_hybrid:
                self._client.create_collection(
                    collection_name=collection_name,
                    vectors_config={
                        DENSE_VECTOR_NAME: dense_config,
                    },
                    # Newly created collection will have the new sparse vector name
                    sparse_vectors_config={SPARSE_VECTOR_NAME: sparse_config},
                    quantization_config=self._quantization_config,
                )
            else:
                self._client.create_collection(
                    collection_name=collection_name,
                    vectors_config=dense_config,
                    quantization_config=self._quantization_config,
                )

            # To improve search performance Qdrant recommends setting up
            # a payload index for fields used in filters.
            # https://qdrant.tech/documentation/concepts/indexing
            if self.index_doc_id:
                self._client.create_payload_index(
                    collection_name=collection_name,
                    field_name=DOCUMENT_ID_KEY,
                    field_schema=rest.PayloadSchemaType.KEYWORD,
                )
        except (RpcError, ValueError, UnexpectedResponse) as exc:
            if "already exists" not in str(exc):
                raise exc  # noqa: TRY201
            logger.warning(
                "Collection %s already exists, skipping collection creation.",
                collection_name,
            )
        self._collection_initialized = True

    async def _acreate_collection(self, collection_name: str, vector_size: int) -> None:
        """Asynchronous method to create a Qdrant collection."""
        from qdrant_client.http import models as rest
        from qdrant_client.http.exceptions import UnexpectedResponse

        dense_config = self._dense_config or rest.VectorParams(
            size=vector_size,
            distance=rest.Distance.COSINE,
        )

        sparse_config = self._sparse_config or rest.SparseVectorParams(
            index=rest.SparseIndexParams(),
            modifier=(
                rest.Modifier.IDF
                if self.fastembed_sparse_model in IDF_EMBEDDING_MODELS
                else None
            ),
        )

        try:
            if self.enable_hybrid:
                await self._aclient.create_collection(
                    collection_name=collection_name,
                    vectors_config={DENSE_VECTOR_NAME: dense_config},
                    sparse_vectors_config={SPARSE_VECTOR_NAME: sparse_config},
                    quantization_config=self._quantization_config,
                )
            else:
                await self._aclient.create_collection(
                    collection_name=collection_name,
                    vectors_config=dense_config,
                    quantization_config=self._quantization_config,
                )
            # To improve search performance Qdrant recommends setting up
            # a payload index for fields used in filters.
            # https://qdrant.tech/documentation/concepts/indexing
            if self.index_doc_id:
                await self._aclient.create_payload_index(
                    collection_name=collection_name,
                    field_name=DOCUMENT_ID_KEY,
                    field_schema=rest.PayloadSchemaType.KEYWORD,
                )
        except (RpcError, ValueError, UnexpectedResponse) as exc:
            if "already exists" not in str(exc):
                raise exc  # noqa: TRY201
            logger.warning(
                "Collection %s already exists, skipping collection creation.",
                collection_name,
            )
        self._collection_initialized = True

    def _collection_exists(self, collection_name: str) -> bool:
        """Check if a collection exists."""
        return self._client.collection_exists(collection_name)

    async def _acollection_exists(self, collection_name: str) -> bool:
        """Asynchronous method to check if a collection exists."""
        return await self._aclient.collection_exists(collection_name)

    def query(
        self,
        query: VectorStoreQuery,
        **kwargs: Any,
    ) -> VectorStoreQueryResult:
        """
        Query index for top k most similar nodes.

        Args:
            query (VectorStoreQuery): query
        """
        query_embedding = cast(List[float], query.query_embedding)
        #  NOTE: users can pass in qdrant_filters (nested/complicated filters) to override the default MetadataFilters
        qdrant_filters = kwargs.get("qdrant_filters")
        if qdrant_filters is not None:
            query_filter = qdrant_filters
        else:
            query_filter = cast(Filter, self._build_query_filter(query))

        if query.mode == VectorStoreQueryMode.HYBRID and not self.enable_hybrid:
            raise ValueError(
                "Hybrid search is not enabled. Please build the query with "
                "`enable_hybrid=True` in the constructor."
            )
        elif (
            query.mode == VectorStoreQueryMode.HYBRID
            and self.enable_hybrid
            and self._sparse_query_fn is not None
            and query.query_str is not None
        ):
            sparse_indices, sparse_embedding = self._sparse_query_fn(
                [query.query_str],
            )
            sparse_top_k = query.sparse_top_k or query.similarity_top_k

            sparse_response = self._client.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedVector(
                            name=DENSE_VECTOR_NAME,
                            vector=query_embedding,
                        ),
                        limit=query.similarity_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                    rest.SearchRequest(
                        vector=rest.NamedSparseVector(
                            # Dynamically switch between the old and new sparse vector name
                            name=self.sparse_vector_name(),
                            vector=rest.SparseVector(
                                indices=sparse_indices[0],
                                values=sparse_embedding[0],
                            ),
                        ),
                        limit=sparse_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )

            # sanity check
            assert len(sparse_response) == 2
            assert self._hybrid_fusion_fn is not None

            # flatten the response
            return self._hybrid_fusion_fn(
                self.parse_to_query_result(sparse_response[0]),
                self.parse_to_query_result(sparse_response[1]),
                # NOTE: only for hybrid search (0 for sparse search, 1 for dense search)
                alpha=query.alpha or 0.5,
                # NOTE: use hybrid_top_k if provided, otherwise use similarity_top_k
                top_k=query.hybrid_top_k or query.similarity_top_k,
            )
        elif (
            query.mode == VectorStoreQueryMode.SPARSE
            and self.enable_hybrid
            and self._sparse_query_fn is not None
            and query.query_str is not None
        ):
            sparse_indices, sparse_embedding = self._sparse_query_fn(
                [query.query_str],
            )
            sparse_top_k = query.sparse_top_k or query.similarity_top_k

            sparse_response = self._client.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedSparseVector(
                            # Dynamically switch between the old and new sparse vector name
                            name=self.sparse_vector_name(),
                            vector=rest.SparseVector(
                                indices=sparse_indices[0],
                                values=sparse_embedding[0],
                            ),
                        ),
                        limit=sparse_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )
            return self.parse_to_query_result(sparse_response[0])

        elif self.enable_hybrid:
            # search for dense vectors only
            response = self._client.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedVector(
                            name=DENSE_VECTOR_NAME,
                            vector=query_embedding,
                        ),
                        limit=query.similarity_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )

            return self.parse_to_query_result(response[0])
        else:
            response = self._client.search(
                collection_name=self.collection_name,
                query_vector=query_embedding,
                limit=query.similarity_top_k,
                query_filter=query_filter,
            )
            return self.parse_to_query_result(response)

    async def aquery(
        self, query: VectorStoreQuery, **kwargs: Any
    ) -> VectorStoreQueryResult:
        """
        Asynchronous method to query index for top k most similar nodes.

        Args:
            query (VectorStoreQuery): query
        """
        query_embedding = cast(List[float], query.query_embedding)

        #  NOTE: users can pass in qdrant_filters (nested/complicated filters) to override the default MetadataFilters
        qdrant_filters = kwargs.get("qdrant_filters")
        if qdrant_filters is not None:
            query_filter = qdrant_filters
        else:
            # build metadata filters
            query_filter = cast(Filter, self._build_query_filter(query))

        if query.mode == VectorStoreQueryMode.HYBRID and not self.enable_hybrid:
            raise ValueError(
                "Hybrid search is not enabled. Please build the query with "
                "`enable_hybrid=True` in the constructor."
            )
        elif (
            query.mode == VectorStoreQueryMode.HYBRID
            and self.enable_hybrid
            and self._sparse_query_fn is not None
            and query.query_str is not None
        ):
            sparse_indices, sparse_embedding = self._sparse_query_fn(
                [query.query_str],
            )
            sparse_top_k = query.sparse_top_k or query.similarity_top_k

            sparse_response = await self._aclient.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedVector(
                            name=DENSE_VECTOR_NAME,
                            vector=query_embedding,
                        ),
                        limit=query.similarity_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                    rest.SearchRequest(
                        vector=rest.NamedSparseVector(
                            # Dynamically switch between the old and new sparse vector name
                            name=await self.asparse_vector_name(),
                            vector=rest.SparseVector(
                                indices=sparse_indices[0],
                                values=sparse_embedding[0],
                            ),
                        ),
                        limit=sparse_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )

            # sanity check
            assert len(sparse_response) == 2
            assert self._hybrid_fusion_fn is not None

            # flatten the response
            return self._hybrid_fusion_fn(
                self.parse_to_query_result(sparse_response[0]),
                self.parse_to_query_result(sparse_response[1]),
                alpha=query.alpha or 0.5,
                # NOTE: use hybrid_top_k if provided, otherwise use similarity_top_k
                top_k=query.hybrid_top_k or query.similarity_top_k,
            )
        elif (
            query.mode == VectorStoreQueryMode.SPARSE
            and self.enable_hybrid
            and self._sparse_query_fn is not None
            and query.query_str is not None
        ):
            sparse_indices, sparse_embedding = self._sparse_query_fn(
                [query.query_str],
            )
            sparse_top_k = query.sparse_top_k or query.similarity_top_k

            sparse_response = await self._aclient.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedSparseVector(
                            # Dynamically switch between the old and new sparse vector name
                            name=await self.asparse_vector_name(),
                            vector=rest.SparseVector(
                                indices=sparse_indices[0],
                                values=sparse_embedding[0],
                            ),
                        ),
                        limit=sparse_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )
            return self.parse_to_query_result(sparse_response[0])
        elif self.enable_hybrid:
            # search for dense vectors only
            response = await self._aclient.search_batch(
                collection_name=self.collection_name,
                requests=[
                    rest.SearchRequest(
                        vector=rest.NamedVector(
                            name=DENSE_VECTOR_NAME,
                            vector=query_embedding,
                        ),
                        limit=query.similarity_top_k,
                        filter=query_filter,
                        with_payload=True,
                    ),
                ],
            )

            return self.parse_to_query_result(response[0])
        else:
            response = await self._aclient.search(
                collection_name=self.collection_name,
                query_vector=query_embedding,
                limit=query.similarity_top_k,
                query_filter=query_filter,
            )

            return self.parse_to_query_result(response)

    def parse_to_query_result(self, response: List[Any]) -> VectorStoreQueryResult:
        """
        Convert vector store response to VectorStoreQueryResult.

        Args:
            response: List[Any]: List of results returned from the vector store.
        """
        nodes = []
        similarities = []
        ids = []

        for point in response:
            payload = cast(Payload, point.payload)
            vector = point.vector
            embedding = None

            if isinstance(vector, dict):
                embedding = vector.get(DENSE_VECTOR_NAME, vector.get("", None))
            elif isinstance(vector, list):
                embedding = vector

            try:
                node = metadata_dict_to_node(payload)

                if embedding and node.embedding is None:
                    node.embedding = embedding
            except Exception:
                metadata, node_info, relationships = legacy_metadata_dict_to_node(
                    payload
                )

                node = TextNode(
                    id_=str(point.id),
                    text=payload.get(self.text_key),
                    metadata=metadata,
                    start_char_idx=node_info.get("start", None),
                    end_char_idx=node_info.get("end", None),
                    relationships=relationships,
                    embedding=embedding,
                )
            nodes.append(node)
            ids.append(str(point.id))
            try:
                similarities.append(point.score)
            except AttributeError:
                # certain requests do not return a score
                similarities.append(1.0)

        return VectorStoreQueryResult(nodes=nodes, similarities=similarities, ids=ids)

    def _build_subfilter(self, filters: MetadataFilters) -> Filter:
        conditions = []
        for subfilter in filters.filters:
            # only for exact match
            if isinstance(subfilter, MetadataFilters) and len(subfilter.filters) > 0:
                conditions.append(self._build_subfilter(subfilter))
            elif not subfilter.operator or subfilter.operator == FilterOperator.EQ:
                if isinstance(subfilter.value, float):
                    conditions.append(
                        FieldCondition(
                            key=subfilter.key,
                            range=Range(
                                gte=subfilter.value,
                                lte=subfilter.value,
                            ),
                        )
                    )
                else:
                    conditions.append(
                        FieldCondition(
                            key=subfilter.key,
                            match=MatchValue(value=subfilter.value),
                        )
                    )
            elif subfilter.operator == FilterOperator.LT:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        range=Range(lt=subfilter.value),
                    )
                )
            elif subfilter.operator == FilterOperator.GT:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        range=Range(gt=subfilter.value),
                    )
                )
            elif subfilter.operator == FilterOperator.GTE:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        range=Range(gte=subfilter.value),
                    )
                )
            elif subfilter.operator == FilterOperator.LTE:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        range=Range(lte=subfilter.value),
                    )
                )
            elif subfilter.operator == FilterOperator.TEXT_MATCH:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        match=MatchText(text=subfilter.value),
                    )
                )
            elif subfilter.operator == FilterOperator.NE:
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        match=MatchExcept(**{"except": [subfilter.value]}),
                    )
                )
            elif subfilter.operator == FilterOperator.IN:
                # match any of the values
                # https://qdrant.tech/documentation/concepts/filtering/#match-any
                if isinstance(subfilter.value, List):
                    values = [str(val) for val in subfilter.value]
                else:
                    values = str(subfilter.value).split(",")

                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        match=MatchAny(any=values),
                    )
                )
            elif subfilter.operator == FilterOperator.NIN:
                # match none of the values
                # https://qdrant.tech/documentation/concepts/filtering/#match-except
                if isinstance(subfilter.value, List):
                    values = [str(val) for val in subfilter.value]
                else:
                    values = str(subfilter.value).split(",")
                conditions.append(
                    FieldCondition(
                        key=subfilter.key,
                        match=MatchExcept(**{"except": values}),
                    )
                )
            elif subfilter.operator == FilterOperator.IS_EMPTY:
                # This condition will match all records where the field reports either does not exist, or has null or [] value.
                # https://qdrant.tech/documentation/concepts/filtering/#is-empty
                conditions.append(
                    IsEmptyCondition(is_empty=PayloadField(key=subfilter.key))
                )

        filter = Filter()
        if filters.condition == FilterCondition.AND:
            filter.must = conditions
        elif filters.condition == FilterCondition.OR:
            filter.should = conditions
        elif filters.condition == FilterCondition.NOT:
            filter.must_not = conditions
        return filter

    def _build_query_filter(self, query: VectorStoreQuery) -> Optional[Any]:
        if not query.doc_ids and not query.query_str:
            return None

        must_conditions = []

        if query.doc_ids:
            must_conditions.append(
                FieldCondition(
                    key=DOCUMENT_ID_KEY,
                    match=MatchAny(any=query.doc_ids),
                )
            )

        # Point id is a “service” id, it is not stored in payload. There is ‘HasId’ condition to filter by point id
        # https://qdrant.tech/documentation/concepts/filtering/#has-id
        if query.node_ids:
            must_conditions.append(
                HasIdCondition(has_id=query.node_ids),
            )

        # Qdrant does not use the query.query_str property for the filtering. Full-text
        # filtering cannot handle longer queries and can effectively filter our all the
        # nodes. See: https://github.com/jerryjliu/llama_index/pull/1181

        if query.filters and query.filters.filters:
            must_conditions.append(self._build_subfilter(query.filters))

        return Filter(must=must_conditions)

    def use_old_sparse_encoder(self, collection_name: str) -> bool:
        collection_exists = self._collection_exists(collection_name)
        if collection_exists:
            cur_collection = self.client.get_collection(collection_name)
            return SPARSE_VECTOR_NAME_OLD in (
                cur_collection.config.params.sparse_vectors or {}
            )

        return False

    def sparse_vector_name(self) -> str:
        return (
            SPARSE_VECTOR_NAME_OLD
            if self.use_old_sparse_encoder(self.collection_name)
            else SPARSE_VECTOR_NAME
        )

    async def ause_old_sparse_encoder(self, collection_name: str) -> bool:
        collection_exists = await self._acollection_exists(collection_name)
        if collection_exists:
            cur_collection = await self._aclient.get_collection(collection_name)
            return SPARSE_VECTOR_NAME_OLD in (
                cur_collection.config.params.sparse_vectors or {}
            )

        return False

    async def asparse_vector_name(self) -> str:
        return (
            SPARSE_VECTOR_NAME_OLD
            if await self.ause_old_sparse_encoder(self.collection_name)
            else SPARSE_VECTOR_NAME
        )

    def get_default_sparse_doc_encoder(
        self, collection_name: str, fastembed_sparse_model: Optional[str] = None
    ) -> SparseEncoderCallable:
        if self.use_old_sparse_encoder(collection_name):
            return default_sparse_encoder("naver/efficient-splade-VI-BT-large-doc")

        if fastembed_sparse_model is not None:
            return fastembed_sparse_encoder(model_name=fastembed_sparse_model)

        return fastembed_sparse_encoder()

    def get_default_sparse_query_encoder(
        self, collection_name: str, fastembed_sparse_model: Optional[str] = None
    ) -> SparseEncoderCallable:
        if self.use_old_sparse_encoder(collection_name):
            return default_sparse_encoder("naver/efficient-splade-VI-BT-large-query")

        if fastembed_sparse_model is not None:
            return fastembed_sparse_encoder(model_name=fastembed_sparse_model)

        return fastembed_sparse_encoder()

client property #

client: Any

Return the Qdrant client.

get_nodes #

get_nodes(node_ids: Optional[List[str]] = None, filters: Optional[MetadataFilters] = None, limit: Optional[int] = None) -> List[BaseNode]

Get nodes from the index.

Parameters:

Name Type Description Default
node_ids Optional[List[str]]

List of node IDs to retrieve.

None
filters Optional[MetadataFilters]

Metadata filters to apply.

None

Returns:

Type Description
List[BaseNode]

List[BaseNode]: List of nodes retrieved from the index.

Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def get_nodes(
    self,
    node_ids: Optional[List[str]] = None,
    filters: Optional[MetadataFilters] = None,
    limit: Optional[int] = None,
) -> List[BaseNode]:
    """
    Get nodes from the index.

    Args:
        node_ids (Optional[List[str]]): List of node IDs to retrieve.
        filters (Optional[MetadataFilters]): Metadata filters to apply.

    Returns:
        List[BaseNode]: List of nodes retrieved from the index.
    """
    should = []
    if node_ids is not None:
        should = [
            HasIdCondition(
                has_id=node_ids,
            )
        ]
        # If we pass a node_ids list,
        # we can limit the search to only those nodes
        # or less if limit is provided
        limit = len(node_ids) if limit is None else min(len(node_ids), limit)

    if filters is not None:
        filter = self._build_subfilter(filters)
        if filter.should is None:
            filter.should = should
        else:
            filter.should.extend(should)
    else:
        filter = Filter(should=should)

    # If we pass an empty list, Qdrant will not return any results
    filter.must = filter.must if filter.must and len(filter.must) > 0 else None
    filter.should = (
        filter.should if filter.should and len(filter.should) > 0 else None
    )
    filter.must_not = (
        filter.must_not if filter.must_not and len(filter.must_not) > 0 else None
    )

    response = self._client.scroll(
        collection_name=self.collection_name,
        limit=limit or 9999,
        scroll_filter=filter,
        with_vectors=True,
    )

    return self.parse_to_query_result(response[0]).nodes

aget_nodes async #

aget_nodes(node_ids: Optional[List[str]] = None, filters: Optional[MetadataFilters] = None, limit: Optional[int] = None) -> List[BaseNode]

Asynchronous method to get nodes from the index.

Parameters:

Name Type Description Default
node_ids Optional[List[str]]

List of node IDs to retrieve.

None
filters Optional[MetadataFilters]

Metadata filters to apply.

None

Returns:

Type Description
List[BaseNode]

List[BaseNode]: List of nodes retrieved from the index.

Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def aget_nodes(
    self,
    node_ids: Optional[List[str]] = None,
    filters: Optional[MetadataFilters] = None,
    limit: Optional[int] = None,
) -> List[BaseNode]:
    """
    Asynchronous method to get nodes from the index.

    Args:
        node_ids (Optional[List[str]]): List of node IDs to retrieve.
        filters (Optional[MetadataFilters]): Metadata filters to apply.

    Returns:
        List[BaseNode]: List of nodes retrieved from the index.
    """
    should = []
    if node_ids is not None:
        should = [
            HasIdCondition(
                has_id=node_ids,
            )
        ]
        # If we pass a node_ids list,
        # we can limit the search to only those nodes
        # or less if limit is provided
        limit = len(node_ids) if limit is None else min(len(node_ids), limit)

    if filters is not None:
        filter = self._build_subfilter(filters)
        if filter.should is None:
            filter.should = should
        else:
            filter.should.extend(should)
    else:
        filter = Filter(should=should)

    response = await self._aclient.scroll(
        collection_name=self.collection_name,
        limit=limit or 9999,
        scroll_filter=filter,
        with_vectors=True,
    )

    return self.parse_to_query_result(response[0]).nodes

add #

add(nodes: List[BaseNode], **add_kwargs: Any) -> List[str]

Add nodes to index.

Parameters:

Name Type Description Default
nodes List[BaseNode]

List[BaseNode]: list of nodes with embeddings

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def add(self, nodes: List[BaseNode], **add_kwargs: Any) -> List[str]:
    """
    Add nodes to index.

    Args:
        nodes: List[BaseNode]: list of nodes with embeddings

    """
    if len(nodes) > 0 and not self._collection_initialized:
        self._create_collection(
            collection_name=self.collection_name,
            vector_size=len(nodes[0].get_embedding()),
        )

    sparse_vector_name = self.sparse_vector_name()
    points, ids = self._build_points(nodes, sparse_vector_name)

    self._client.upload_points(
        collection_name=self.collection_name,
        points=points,
        batch_size=self.batch_size,
        parallel=self.parallel,
        max_retries=self.max_retries,
        wait=True,
    )

    return ids

async_add async #

async_add(nodes: List[BaseNode], **kwargs: Any) -> List[str]

Asynchronous method to add nodes to Qdrant index.

Parameters:

Name Type Description Default
nodes List[BaseNode]

List[BaseNode]: List of nodes with embeddings.

required

Returns:

Type Description
List[str]

List of node IDs that were added to the index.

Raises:

Type Description
ValueError

If trying to using async methods without aclient

Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def async_add(self, nodes: List[BaseNode], **kwargs: Any) -> List[str]:
    """
    Asynchronous method to add nodes to Qdrant index.

    Args:
        nodes: List[BaseNode]: List of nodes with embeddings.

    Returns:
        List of node IDs that were added to the index.

    Raises:
        ValueError: If trying to using async methods without aclient
    """
    from qdrant_client.http.exceptions import UnexpectedResponse

    collection_initialized = await self._acollection_exists(self.collection_name)

    if len(nodes) > 0 and not collection_initialized:
        await self._acreate_collection(
            collection_name=self.collection_name,
            vector_size=len(nodes[0].get_embedding()),
        )

    sparse_vector_name = await self.asparse_vector_name()
    points, ids = self._build_points(nodes, sparse_vector_name)

    for batch in iter_batch(points, self.batch_size):
        retries = 0
        while retries < self.max_retries:
            try:
                await self._aclient.upsert(
                    collection_name=self.collection_name,
                    points=batch,
                )
                break
            except (RpcError, UnexpectedResponse) as exc:
                retries += 1
                if retries >= self.max_retries:
                    raise exc  # noqa: TRY201

    return ids

delete #

delete(ref_doc_id: str, **delete_kwargs: Any) -> None

Delete nodes using with ref_doc_id.

Parameters:

Name Type Description Default
ref_doc_id str

The doc_id of the document to delete.

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def delete(self, ref_doc_id: str, **delete_kwargs: Any) -> None:
    """
    Delete nodes using with ref_doc_id.

    Args:
        ref_doc_id (str): The doc_id of the document to delete.

    """
    self._client.delete(
        collection_name=self.collection_name,
        points_selector=rest.Filter(
            must=[
                rest.FieldCondition(
                    key=DOCUMENT_ID_KEY, match=rest.MatchValue(value=ref_doc_id)
                )
            ]
        ),
    )

adelete async #

adelete(ref_doc_id: str, **delete_kwargs: Any) -> None

Asynchronous method to delete nodes using with ref_doc_id.

Parameters:

Name Type Description Default
ref_doc_id str

The doc_id of the document to delete.

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def adelete(self, ref_doc_id: str, **delete_kwargs: Any) -> None:
    """
    Asynchronous method to delete nodes using with ref_doc_id.

    Args:
        ref_doc_id (str): The doc_id of the document to delete.

    """
    await self._aclient.delete(
        collection_name=self.collection_name,
        points_selector=rest.Filter(
            must=[
                rest.FieldCondition(
                    key=DOCUMENT_ID_KEY, match=rest.MatchValue(value=ref_doc_id)
                )
            ]
        ),
    )

delete_nodes #

delete_nodes(node_ids: Optional[List[str]] = None, filters: Optional[MetadataFilters] = None, **delete_kwargs: Any) -> None

Delete nodes using with node_ids.

Parameters:

Name Type Description Default
node_ids Optional[List[str]

List of node IDs to delete.

None
filters Optional[MetadataFilters]

Metadata filters to apply.

None
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def delete_nodes(
    self,
    node_ids: Optional[List[str]] = None,
    filters: Optional[MetadataFilters] = None,
    **delete_kwargs: Any,
) -> None:
    """
    Delete nodes using with node_ids.

    Args:
        node_ids (Optional[List[str]): List of node IDs to delete.
        filters (Optional[MetadataFilters]): Metadata filters to apply.
    """
    should = []
    if node_ids is not None:
        should = [
            HasIdCondition(
                has_id=node_ids,
            )
        ]

    if filters is not None:
        filter = self._build_subfilter(filters)
        if filter.should is None:
            filter.should = should
        else:
            filter.should.extend(should)
    else:
        filter = Filter(should=should)

    self._client.delete(
        collection_name=self.collection_name,
        points_selector=filter,
    )

adelete_nodes async #

adelete_nodes(node_ids: Optional[List[str]] = None, filters: Optional[MetadataFilters] = None, **delete_kwargs: Any) -> None

Asynchronous method to delete nodes using with node_ids.

Parameters:

Name Type Description Default
node_ids Optional[List[str]

List of node IDs to delete.

None
filters Optional[MetadataFilters]

Metadata filters to apply.

None
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def adelete_nodes(
    self,
    node_ids: Optional[List[str]] = None,
    filters: Optional[MetadataFilters] = None,
    **delete_kwargs: Any,
) -> None:
    """
    Asynchronous method to delete nodes using with node_ids.

    Args:
        node_ids (Optional[List[str]): List of node IDs to delete.
        filters (Optional[MetadataFilters]): Metadata filters to apply.
    """
    should = []
    if node_ids is not None:
        should = [
            HasIdCondition(
                has_id=node_ids,
            )
        ]

    if filters is not None:
        filter = self._build_subfilter(filters)
        if filter.should is None:
            filter.should = should
        else:
            filter.should.extend(should)
    else:
        filter = Filter(should=should)

    await self._aclient.delete(
        collection_name=self.collection_name,
        points_selector=filter,
    )

clear #

clear() -> None

Clear the index.

Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def clear(self) -> None:
    """
    Clear the index.
    """
    self._client.delete_collection(collection_name=self.collection_name)
    self._collection_initialized = False

aclear async #

aclear() -> None

Asynchronous method to clear the index.

Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def aclear(self) -> None:
    """
    Asynchronous method to clear the index.
    """
    await self._aclient.delete_collection(collection_name=self.collection_name)
    self._collection_initialized = False

query #

query(query: VectorStoreQuery, **kwargs: Any) -> VectorStoreQueryResult

Query index for top k most similar nodes.

Parameters:

Name Type Description Default
query VectorStoreQuery

query

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def query(
    self,
    query: VectorStoreQuery,
    **kwargs: Any,
) -> VectorStoreQueryResult:
    """
    Query index for top k most similar nodes.

    Args:
        query (VectorStoreQuery): query
    """
    query_embedding = cast(List[float], query.query_embedding)
    #  NOTE: users can pass in qdrant_filters (nested/complicated filters) to override the default MetadataFilters
    qdrant_filters = kwargs.get("qdrant_filters")
    if qdrant_filters is not None:
        query_filter = qdrant_filters
    else:
        query_filter = cast(Filter, self._build_query_filter(query))

    if query.mode == VectorStoreQueryMode.HYBRID and not self.enable_hybrid:
        raise ValueError(
            "Hybrid search is not enabled. Please build the query with "
            "`enable_hybrid=True` in the constructor."
        )
    elif (
        query.mode == VectorStoreQueryMode.HYBRID
        and self.enable_hybrid
        and self._sparse_query_fn is not None
        and query.query_str is not None
    ):
        sparse_indices, sparse_embedding = self._sparse_query_fn(
            [query.query_str],
        )
        sparse_top_k = query.sparse_top_k or query.similarity_top_k

        sparse_response = self._client.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedVector(
                        name=DENSE_VECTOR_NAME,
                        vector=query_embedding,
                    ),
                    limit=query.similarity_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
                rest.SearchRequest(
                    vector=rest.NamedSparseVector(
                        # Dynamically switch between the old and new sparse vector name
                        name=self.sparse_vector_name(),
                        vector=rest.SparseVector(
                            indices=sparse_indices[0],
                            values=sparse_embedding[0],
                        ),
                    ),
                    limit=sparse_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )

        # sanity check
        assert len(sparse_response) == 2
        assert self._hybrid_fusion_fn is not None

        # flatten the response
        return self._hybrid_fusion_fn(
            self.parse_to_query_result(sparse_response[0]),
            self.parse_to_query_result(sparse_response[1]),
            # NOTE: only for hybrid search (0 for sparse search, 1 for dense search)
            alpha=query.alpha or 0.5,
            # NOTE: use hybrid_top_k if provided, otherwise use similarity_top_k
            top_k=query.hybrid_top_k or query.similarity_top_k,
        )
    elif (
        query.mode == VectorStoreQueryMode.SPARSE
        and self.enable_hybrid
        and self._sparse_query_fn is not None
        and query.query_str is not None
    ):
        sparse_indices, sparse_embedding = self._sparse_query_fn(
            [query.query_str],
        )
        sparse_top_k = query.sparse_top_k or query.similarity_top_k

        sparse_response = self._client.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedSparseVector(
                        # Dynamically switch between the old and new sparse vector name
                        name=self.sparse_vector_name(),
                        vector=rest.SparseVector(
                            indices=sparse_indices[0],
                            values=sparse_embedding[0],
                        ),
                    ),
                    limit=sparse_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )
        return self.parse_to_query_result(sparse_response[0])

    elif self.enable_hybrid:
        # search for dense vectors only
        response = self._client.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedVector(
                        name=DENSE_VECTOR_NAME,
                        vector=query_embedding,
                    ),
                    limit=query.similarity_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )

        return self.parse_to_query_result(response[0])
    else:
        response = self._client.search(
            collection_name=self.collection_name,
            query_vector=query_embedding,
            limit=query.similarity_top_k,
            query_filter=query_filter,
        )
        return self.parse_to_query_result(response)

aquery async #

aquery(query: VectorStoreQuery, **kwargs: Any) -> VectorStoreQueryResult

Asynchronous method to query index for top k most similar nodes.

Parameters:

Name Type Description Default
query VectorStoreQuery

query

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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async def aquery(
    self, query: VectorStoreQuery, **kwargs: Any
) -> VectorStoreQueryResult:
    """
    Asynchronous method to query index for top k most similar nodes.

    Args:
        query (VectorStoreQuery): query
    """
    query_embedding = cast(List[float], query.query_embedding)

    #  NOTE: users can pass in qdrant_filters (nested/complicated filters) to override the default MetadataFilters
    qdrant_filters = kwargs.get("qdrant_filters")
    if qdrant_filters is not None:
        query_filter = qdrant_filters
    else:
        # build metadata filters
        query_filter = cast(Filter, self._build_query_filter(query))

    if query.mode == VectorStoreQueryMode.HYBRID and not self.enable_hybrid:
        raise ValueError(
            "Hybrid search is not enabled. Please build the query with "
            "`enable_hybrid=True` in the constructor."
        )
    elif (
        query.mode == VectorStoreQueryMode.HYBRID
        and self.enable_hybrid
        and self._sparse_query_fn is not None
        and query.query_str is not None
    ):
        sparse_indices, sparse_embedding = self._sparse_query_fn(
            [query.query_str],
        )
        sparse_top_k = query.sparse_top_k or query.similarity_top_k

        sparse_response = await self._aclient.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedVector(
                        name=DENSE_VECTOR_NAME,
                        vector=query_embedding,
                    ),
                    limit=query.similarity_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
                rest.SearchRequest(
                    vector=rest.NamedSparseVector(
                        # Dynamically switch between the old and new sparse vector name
                        name=await self.asparse_vector_name(),
                        vector=rest.SparseVector(
                            indices=sparse_indices[0],
                            values=sparse_embedding[0],
                        ),
                    ),
                    limit=sparse_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )

        # sanity check
        assert len(sparse_response) == 2
        assert self._hybrid_fusion_fn is not None

        # flatten the response
        return self._hybrid_fusion_fn(
            self.parse_to_query_result(sparse_response[0]),
            self.parse_to_query_result(sparse_response[1]),
            alpha=query.alpha or 0.5,
            # NOTE: use hybrid_top_k if provided, otherwise use similarity_top_k
            top_k=query.hybrid_top_k or query.similarity_top_k,
        )
    elif (
        query.mode == VectorStoreQueryMode.SPARSE
        and self.enable_hybrid
        and self._sparse_query_fn is not None
        and query.query_str is not None
    ):
        sparse_indices, sparse_embedding = self._sparse_query_fn(
            [query.query_str],
        )
        sparse_top_k = query.sparse_top_k or query.similarity_top_k

        sparse_response = await self._aclient.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedSparseVector(
                        # Dynamically switch between the old and new sparse vector name
                        name=await self.asparse_vector_name(),
                        vector=rest.SparseVector(
                            indices=sparse_indices[0],
                            values=sparse_embedding[0],
                        ),
                    ),
                    limit=sparse_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )
        return self.parse_to_query_result(sparse_response[0])
    elif self.enable_hybrid:
        # search for dense vectors only
        response = await self._aclient.search_batch(
            collection_name=self.collection_name,
            requests=[
                rest.SearchRequest(
                    vector=rest.NamedVector(
                        name=DENSE_VECTOR_NAME,
                        vector=query_embedding,
                    ),
                    limit=query.similarity_top_k,
                    filter=query_filter,
                    with_payload=True,
                ),
            ],
        )

        return self.parse_to_query_result(response[0])
    else:
        response = await self._aclient.search(
            collection_name=self.collection_name,
            query_vector=query_embedding,
            limit=query.similarity_top_k,
            query_filter=query_filter,
        )

        return self.parse_to_query_result(response)

parse_to_query_result #

parse_to_query_result(response: List[Any]) -> VectorStoreQueryResult

Convert vector store response to VectorStoreQueryResult.

Parameters:

Name Type Description Default
response List[Any]

List[Any]: List of results returned from the vector store.

required
Source code in llama-index-integrations/vector_stores/llama-index-vector-stores-qdrant/llama_index/vector_stores/qdrant/base.py
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def parse_to_query_result(self, response: List[Any]) -> VectorStoreQueryResult:
    """
    Convert vector store response to VectorStoreQueryResult.

    Args:
        response: List[Any]: List of results returned from the vector store.
    """
    nodes = []
    similarities = []
    ids = []

    for point in response:
        payload = cast(Payload, point.payload)
        vector = point.vector
        embedding = None

        if isinstance(vector, dict):
            embedding = vector.get(DENSE_VECTOR_NAME, vector.get("", None))
        elif isinstance(vector, list):
            embedding = vector

        try:
            node = metadata_dict_to_node(payload)

            if embedding and node.embedding is None:
                node.embedding = embedding
        except Exception:
            metadata, node_info, relationships = legacy_metadata_dict_to_node(
                payload
            )

            node = TextNode(
                id_=str(point.id),
                text=payload.get(self.text_key),
                metadata=metadata,
                start_char_idx=node_info.get("start", None),
                end_char_idx=node_info.get("end", None),
                relationships=relationships,
                embedding=embedding,
            )
        nodes.append(node)
        ids.append(str(point.id))
        try:
            similarities.append(point.score)
        except AttributeError:
            # certain requests do not return a score
            similarities.append(1.0)

    return VectorStoreQueryResult(nodes=nodes, similarities=similarities, ids=ids)