""" .. warning:: Beta Feature! **Cache** provides an optional caching layer for LLMs. Cache is useful for two reasons: - It can save you money by reducing the number of API calls you make to the LLM provider if you're often requesting the same completion multiple times. - It can speed up your application by reducing the number of API calls you make to the LLM provider. Cache directly competes with Memory. See documentation for Pros and Cons. **Class hierarchy:** .. code-block:: BaseCache --> Cache # Examples: InMemoryCache, RedisCache, GPTCache """ from __future__ import annotations import hashlib import inspect import json import logging import uuid import warnings from abc import ABC from datetime import timedelta from enum import Enum from functools import lru_cache, wraps from typing import ( TYPE_CHECKING, Any, Awaitable, Callable, Dict, Generator, List, Optional, Sequence, Tuple, Type, Union, cast, ) from sqlalchemy import Column, Integer, String, create_engine, delete, select from sqlalchemy.engine import Row from sqlalchemy.engine.base import Engine from sqlalchemy.orm import Session from langchain_community.utilities.cassandra import SetupMode as CassandraSetupMode from langchain_community.vectorstores.azure_cosmos_db import ( CosmosDBSimilarityType, CosmosDBVectorSearchType, ) try: from sqlalchemy.orm import declarative_base except ImportError: from sqlalchemy.ext.declarative import declarative_base from langchain_core._api.deprecation import deprecated, warn_deprecated from langchain_core.caches import RETURN_VAL_TYPE, BaseCache from langchain_core.embeddings import Embeddings from langchain_core.language_models.llms import LLM, aget_prompts, get_prompts from langchain_core.load.dump import dumps from langchain_core.load.load import loads from langchain_core.outputs import ChatGeneration, Generation from langchain_core.utils import get_from_env from langchain_community.utilities.astradb import ( SetupMode as AstraSetupMode, ) from langchain_community.utilities.astradb import ( _AstraDBCollectionEnvironment, ) from langchain_community.vectorstores import AzureCosmosDBVectorSearch from langchain_community.vectorstores import ( OpenSearchVectorSearch as OpenSearchVectorStore, ) from langchain_community.vectorstores.redis import Redis as RedisVectorstore logger = logging.getLogger(__file__) if TYPE_CHECKING: import momento from astrapy.db import AstraDB, AsyncAstraDB from cassandra.cluster import Session as CassandraSession def _hash(_input: str) -> str: """Use a deterministic hashing approach.""" return hashlib.md5(_input.encode()).hexdigest() def _dump_generations_to_json(generations: RETURN_VAL_TYPE) -> str: """Dump generations to json. Args: generations (RETURN_VAL_TYPE): A list of language model generations. Returns: str: Json representing a list of generations. Warning: would not work well with arbitrary subclasses of `Generation` """ return json.dumps([generation.dict() for generation in generations]) def _load_generations_from_json(generations_json: str) -> RETURN_VAL_TYPE: """Load generations from json. Args: generations_json (str): A string of json representing a list of generations. Raises: ValueError: Could not decode json string to list of generations. Returns: RETURN_VAL_TYPE: A list of generations. Warning: would not work well with arbitrary subclasses of `Generation` """ try: results = json.loads(generations_json) return [Generation(**generation_dict) for generation_dict in results] except json.JSONDecodeError: raise ValueError( f"Could not decode json to list of generations: {generations_json}" ) def _dumps_generations(generations: RETURN_VAL_TYPE) -> str: """ Serialization for generic RETURN_VAL_TYPE, i.e. sequence of `Generation` Args: generations (RETURN_VAL_TYPE): A list of language model generations. Returns: str: a single string representing a list of generations. This function (+ its counterpart `_loads_generations`) rely on the dumps/loads pair with Reviver, so are able to deal with all subclasses of Generation. Each item in the list can be `dumps`ed to a string, then we make the whole list of strings into a json-dumped. """ return json.dumps([dumps(_item) for _item in generations]) def _loads_generations(generations_str: str) -> Union[RETURN_VAL_TYPE, None]: """ Deserialization of a string into a generic RETURN_VAL_TYPE (i.e. a sequence of `Generation`). See `_dumps_generations`, the inverse of this function. Args: generations_str (str): A string representing a list of generations. Compatible with the legacy cache-blob format Does not raise exceptions for malformed entries, just logs a warning and returns none: the caller should be prepared for such a cache miss. Returns: RETURN_VAL_TYPE: A list of generations. """ try: generations = [loads(_item_str) for _item_str in json.loads(generations_str)] return generations except (json.JSONDecodeError, TypeError): # deferring the (soft) handling to after the legacy-format attempt pass try: gen_dicts = json.loads(generations_str) # not relying on `_load_generations_from_json` (which could disappear): generations = [Generation(**generation_dict) for generation_dict in gen_dicts] logger.warning( f"Legacy 'Generation' cached blob encountered: '{generations_str}'" ) return generations except (json.JSONDecodeError, TypeError): logger.warning( f"Malformed/unparsable cached blob encountered: '{generations_str}'" ) return None class InMemoryCache(BaseCache): """Cache that stores things in memory.""" def __init__(self) -> None: """Initialize with empty cache.""" self._cache: Dict[Tuple[str, str], RETURN_VAL_TYPE] = {} def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" return self._cache.get((prompt, llm_string), None) def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" self._cache[(prompt, llm_string)] = return_val def clear(self, **kwargs: Any) -> None: """Clear cache.""" self._cache = {} async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" return self.lookup(prompt, llm_string) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: """Update cache based on prompt and llm_string.""" self.update(prompt, llm_string, return_val) async def aclear(self, **kwargs: Any) -> None: """Clear cache.""" self.clear() Base = declarative_base() class FullLLMCache(Base): # type: ignore """SQLite table for full LLM Cache (all generations).""" __tablename__ = "full_llm_cache" prompt = Column(String, primary_key=True) llm = Column(String, primary_key=True) idx = Column(Integer, primary_key=True) response = Column(String) class SQLAlchemyCache(BaseCache): """Cache that uses SQAlchemy as a backend.""" def __init__(self, engine: Engine, cache_schema: Type[FullLLMCache] = FullLLMCache): """Initialize by creating all tables.""" self.engine = engine self.cache_schema = cache_schema self.cache_schema.metadata.create_all(self.engine) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" stmt = ( select(self.cache_schema.response) .where(self.cache_schema.prompt == prompt) # type: ignore .where(self.cache_schema.llm == llm_string) .order_by(self.cache_schema.idx) ) with Session(self.engine) as session: rows = session.execute(stmt).fetchall() if rows: try: return [loads(row[0]) for row in rows] except Exception: logger.warning( "Retrieving a cache value that could not be deserialized " "properly. This is likely due to the cache being in an " "older format. Please recreate your cache to avoid this " "error." ) # In a previous life we stored the raw text directly # in the table, so assume it's in that format. return [Generation(text=row[0]) for row in rows] return None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update based on prompt and llm_string.""" items = [ self.cache_schema(prompt=prompt, llm=llm_string, response=dumps(gen), idx=i) for i, gen in enumerate(return_val) ] with Session(self.engine) as session, session.begin(): for item in items: session.merge(item) def clear(self, **kwargs: Any) -> None: """Clear cache.""" with Session(self.engine) as session: session.query(self.cache_schema).delete() session.commit() class SQLiteCache(SQLAlchemyCache): """Cache that uses SQLite as a backend.""" def __init__(self, database_path: str = ".langchain.db"): """Initialize by creating the engine and all tables.""" engine = create_engine(f"sqlite:///{database_path}") super().__init__(engine) class UpstashRedisCache(BaseCache): """Cache that uses Upstash Redis as a backend.""" def __init__(self, redis_: Any, *, ttl: Optional[int] = None): """ Initialize an instance of UpstashRedisCache. This method initializes an object with Upstash Redis caching capabilities. It takes a `redis_` parameter, which should be an instance of an Upstash Redis client class, allowing the object to interact with Upstash Redis server for caching purposes. Parameters: redis_: An instance of Upstash Redis client class (e.g., Redis) used for caching. This allows the object to communicate with Redis server for caching operations on. ttl (int, optional): Time-to-live (TTL) for cached items in seconds. If provided, it sets the time duration for how long cached items will remain valid. If not provided, cached items will not have an automatic expiration. """ try: from upstash_redis import Redis except ImportError: raise ImportError( "Could not import upstash_redis python package. " "Please install it with `pip install upstash_redis`." ) if not isinstance(redis_, Redis): raise ValueError("Please pass in Upstash Redis object.") self.redis = redis_ self.ttl = ttl def _key(self, prompt: str, llm_string: str) -> str: """Compute key from prompt and llm_string""" return _hash(prompt + llm_string) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" generations = [] # Read from a HASH results = self.redis.hgetall(self._key(prompt, llm_string)) if results: for _, text in results.items(): generations.append(Generation(text=text)) return generations if generations else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "UpstashRedisCache supports caching of normal LLM generations, " f"got {type(gen)}" ) if isinstance(gen, ChatGeneration): warnings.warn( "NOTE: Generation has not been cached. UpstashRedisCache does not" " support caching ChatModel outputs." ) return # Write to a HASH key = self._key(prompt, llm_string) mapping = { str(idx): generation.text for idx, generation in enumerate(return_val) } self.redis.hset(key=key, values=mapping) if self.ttl is not None: self.redis.expire(key, self.ttl) def clear(self, **kwargs: Any) -> None: """ Clear cache. If `asynchronous` is True, flush asynchronously. This flushes the *whole* db. """ asynchronous = kwargs.get("asynchronous", False) if asynchronous: asynchronous = "ASYNC" else: asynchronous = "SYNC" self.redis.flushdb(flush_type=asynchronous) class _RedisCacheBase(BaseCache, ABC): @staticmethod def _key(prompt: str, llm_string: str) -> str: """Compute key from prompt and llm_string""" return _hash(prompt + llm_string) @staticmethod def _ensure_generation_type(return_val: RETURN_VAL_TYPE) -> None: for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "RedisCache only supports caching of normal LLM generations, " f"got {type(gen)}" ) @staticmethod def _get_generations( results: dict[str | bytes, str | bytes], ) -> Optional[List[Generation]]: generations = [] if results: for _, text in results.items(): try: generations.append(loads(cast(str, text))) except Exception: logger.warning( "Retrieving a cache value that could not be deserialized " "properly. This is likely due to the cache being in an " "older format. Please recreate your cache to avoid this " "error." ) # In a previous life we stored the raw text directly # in the table, so assume it's in that format. generations.append(Generation(text=text)) # type: ignore[arg-type] return generations if generations else None @staticmethod def _configure_pipeline_for_update( key: str, pipe: Any, return_val: RETURN_VAL_TYPE, ttl: Optional[int] = None ) -> None: pipe.hset( key, mapping={ str(idx): dumps(generation) for idx, generation in enumerate(return_val) }, ) if ttl is not None: pipe.expire(key, ttl) class RedisCache(_RedisCacheBase): """ Cache that uses Redis as a backend. Allows to use a sync `redis.Redis` client. """ def __init__(self, redis_: Any, *, ttl: Optional[int] = None): """ Initialize an instance of RedisCache. This method initializes an object with Redis caching capabilities. It takes a `redis_` parameter, which should be an instance of a Redis client class (`redis.Redis`), allowing the object to interact with a Redis server for caching purposes. Parameters: redis_ (Any): An instance of a Redis client class (`redis.Redis`) to be used for caching. This allows the object to communicate with a Redis server for caching operations. ttl (int, optional): Time-to-live (TTL) for cached items in seconds. If provided, it sets the time duration for how long cached items will remain valid. If not provided, cached items will not have an automatic expiration. """ try: from redis import Redis except ImportError: raise ImportError( "Could not import `redis` python package. " "Please install it with `pip install redis`." ) if not isinstance(redis_, Redis): raise ValueError("Please pass a valid `redis.Redis` client.") self.redis = redis_ self.ttl = ttl def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" # Read from a Redis HASH try: results = self.redis.hgetall(self._key(prompt, llm_string)) return self._get_generations(results) # type: ignore[arg-type] except Exception as e: logger.error(f"Redis lookup failed: {e}") return None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" self._ensure_generation_type(return_val) key = self._key(prompt, llm_string) try: with self.redis.pipeline() as pipe: self._configure_pipeline_for_update(key, pipe, return_val, self.ttl) pipe.execute() except Exception as e: logger.error(f"Redis update failed: {e}") def clear(self, **kwargs: Any) -> None: """Clear cache. If `asynchronous` is True, flush asynchronously.""" try: asynchronous = kwargs.get("asynchronous", False) self.redis.flushdb(asynchronous=asynchronous, **kwargs) except Exception as e: logger.error(f"Redis clear failed: {e}") class AsyncRedisCache(_RedisCacheBase): """ Cache that uses Redis as a backend. Allows to use an async `redis.asyncio.Redis` client. """ def __init__(self, redis_: Any, *, ttl: Optional[int] = None): """ Initialize an instance of AsyncRedisCache. This method initializes an object with Redis caching capabilities. It takes a `redis_` parameter, which should be an instance of a Redis client class (`redis.asyncio.Redis`), allowing the object to interact with a Redis server for caching purposes. Parameters: redis_ (Any): An instance of a Redis client class (`redis.asyncio.Redis`) to be used for caching. This allows the object to communicate with a Redis server for caching operations. ttl (int, optional): Time-to-live (TTL) for cached items in seconds. If provided, it sets the time duration for how long cached items will remain valid. If not provided, cached items will not have an automatic expiration. """ try: from redis.asyncio import Redis except ImportError: raise ImportError( "Could not import `redis.asyncio` python package. " "Please install it with `pip install redis`." ) if not isinstance(redis_, Redis): raise ValueError("Please pass a valid `redis.asyncio.Redis` client.") self.redis = redis_ self.ttl = ttl def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" raise NotImplementedError( "This async Redis cache does not implement `lookup()` method. " "Consider using the async `alookup()` version." ) async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string. Async version.""" try: results = await self.redis.hgetall(self._key(prompt, llm_string)) return self._get_generations(results) # type: ignore[arg-type] except Exception as e: logger.error(f"Redis async lookup failed: {e}") return None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" raise NotImplementedError( "This async Redis cache does not implement `update()` method. " "Consider using the async `aupdate()` version." ) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: """Update cache based on prompt and llm_string. Async version.""" self._ensure_generation_type(return_val) key = self._key(prompt, llm_string) try: async with self.redis.pipeline() as pipe: self._configure_pipeline_for_update(key, pipe, return_val, self.ttl) await pipe.execute() # type: ignore[attr-defined] except Exception as e: logger.error(f"Redis async update failed: {e}") def clear(self, **kwargs: Any) -> None: """Clear cache. If `asynchronous` is True, flush asynchronously.""" raise NotImplementedError( "This async Redis cache does not implement `clear()` method. " "Consider using the async `aclear()` version." ) async def aclear(self, **kwargs: Any) -> None: """ Clear cache. If `asynchronous` is True, flush asynchronously. Async version. """ try: asynchronous = kwargs.get("asynchronous", False) await self.redis.flushdb(asynchronous=asynchronous, **kwargs) except Exception as e: logger.error(f"Redis async clear failed: {e}") class RedisSemanticCache(BaseCache): """Cache that uses Redis as a vector-store backend.""" # TODO - implement a TTL policy in Redis DEFAULT_SCHEMA = { "content_key": "prompt", "text": [ {"name": "prompt"}, ], "extra": [{"name": "return_val"}, {"name": "llm_string"}], } def __init__( self, redis_url: str, embedding: Embeddings, score_threshold: float = 0.2 ): """Initialize by passing in the `init` GPTCache func Args: redis_url (str): URL to connect to Redis. embedding (Embedding): Embedding provider for semantic encoding and search. score_threshold (float, 0.2): Example: .. code-block:: python from langchain_community.globals import set_llm_cache from langchain_community.cache import RedisSemanticCache from langchain_community.embeddings import OpenAIEmbeddings set_llm_cache(RedisSemanticCache( redis_url="redis://localhost:6379", embedding=OpenAIEmbeddings() )) """ self._cache_dict: Dict[str, RedisVectorstore] = {} self.redis_url = redis_url self.embedding = embedding self.score_threshold = score_threshold def _index_name(self, llm_string: str) -> str: hashed_index = _hash(llm_string) return f"cache:{hashed_index}" def _get_llm_cache(self, llm_string: str) -> RedisVectorstore: index_name = self._index_name(llm_string) # return vectorstore client for the specific llm string if index_name in self._cache_dict: return self._cache_dict[index_name] # create new vectorstore client for the specific llm string try: self._cache_dict[index_name] = RedisVectorstore.from_existing_index( embedding=self.embedding, index_name=index_name, redis_url=self.redis_url, schema=cast(Dict, self.DEFAULT_SCHEMA), ) except ValueError: redis = RedisVectorstore( embedding=self.embedding, index_name=index_name, redis_url=self.redis_url, index_schema=cast(Dict, self.DEFAULT_SCHEMA), ) _embedding = self.embedding.embed_query(text="test") redis._create_index_if_not_exist(dim=len(_embedding)) self._cache_dict[index_name] = redis return self._cache_dict[index_name] def clear(self, **kwargs: Any) -> None: """Clear semantic cache for a given llm_string.""" index_name = self._index_name(kwargs["llm_string"]) if index_name in self._cache_dict: self._cache_dict[index_name].drop_index( index_name=index_name, delete_documents=True, redis_url=self.redis_url ) del self._cache_dict[index_name] def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" llm_cache = self._get_llm_cache(llm_string) generations: List = [] # Read from a Hash results = llm_cache.similarity_search( query=prompt, k=1, distance_threshold=self.score_threshold, ) if results: for document in results: try: generations.extend(loads(document.metadata["return_val"])) except Exception: logger.warning( "Retrieving a cache value that could not be deserialized " "properly. This is likely due to the cache being in an " "older format. Please recreate your cache to avoid this " "error." ) # In a previous life we stored the raw text directly # in the table, so assume it's in that format. generations.extend( _load_generations_from_json(document.metadata["return_val"]) ) return generations if generations else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "RedisSemanticCache only supports caching of " f"normal LLM generations, got {type(gen)}" ) llm_cache = self._get_llm_cache(llm_string) metadata = { "llm_string": llm_string, "prompt": prompt, "return_val": dumps([g for g in return_val]), } llm_cache.add_texts(texts=[prompt], metadatas=[metadata]) class GPTCache(BaseCache): """Cache that uses GPTCache as a backend.""" def __init__( self, init_func: Union[ Callable[[Any, str], None], Callable[[Any], None], None ] = None, ): """Initialize by passing in init function (default: `None`). Args: init_func (Optional[Callable[[Any], None]]): init `GPTCache` function (default: `None`) Example: .. code-block:: python # Initialize GPTCache with a custom init function import gptcache from gptcache.processor.pre import get_prompt from gptcache.manager.factory import get_data_manager from langchain_community.globals import set_llm_cache # Avoid multiple caches using the same file, causing different llm model caches to affect each other def init_gptcache(cache_obj: gptcache.Cache, llm str): cache_obj.init( pre_embedding_func=get_prompt, data_manager=manager_factory( manager="map", data_dir=f"map_cache_{llm}" ), ) set_llm_cache(GPTCache(init_gptcache)) """ try: import gptcache # noqa: F401 except ImportError: raise ImportError( "Could not import gptcache python package. " "Please install it with `pip install gptcache`." ) self.init_gptcache_func: Union[ Callable[[Any, str], None], Callable[[Any], None], None ] = init_func self.gptcache_dict: Dict[str, Any] = {} def _new_gptcache(self, llm_string: str) -> Any: """New gptcache object""" from gptcache import Cache from gptcache.manager.factory import get_data_manager from gptcache.processor.pre import get_prompt _gptcache = Cache() if self.init_gptcache_func is not None: sig = inspect.signature(self.init_gptcache_func) if len(sig.parameters) == 2: self.init_gptcache_func(_gptcache, llm_string) # type: ignore[call-arg] else: self.init_gptcache_func(_gptcache) # type: ignore[call-arg] else: _gptcache.init( pre_embedding_func=get_prompt, data_manager=get_data_manager(data_path=llm_string), ) self.gptcache_dict[llm_string] = _gptcache return _gptcache def _get_gptcache(self, llm_string: str) -> Any: """Get a cache object. When the corresponding llm model cache does not exist, it will be created.""" _gptcache = self.gptcache_dict.get(llm_string, None) if not _gptcache: _gptcache = self._new_gptcache(llm_string) return _gptcache def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up the cache data. First, retrieve the corresponding cache object using the `llm_string` parameter, and then retrieve the data from the cache based on the `prompt`. """ from gptcache.adapter.api import get _gptcache = self._get_gptcache(llm_string) res = get(prompt, cache_obj=_gptcache) return _loads_generations(res) if res is not None else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache. First, retrieve the corresponding cache object using the `llm_string` parameter, and then store the `prompt` and `return_val` in the cache object. """ for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "GPTCache only supports caching of normal LLM generations, " f"got {type(gen)}" ) from gptcache.adapter.api import put _gptcache = self._get_gptcache(llm_string) handled_data = _dumps_generations(return_val) put(prompt, handled_data, cache_obj=_gptcache) return None def clear(self, **kwargs: Any) -> None: """Clear cache.""" from gptcache import Cache for gptcache_instance in self.gptcache_dict.values(): gptcache_instance = cast(Cache, gptcache_instance) gptcache_instance.flush() self.gptcache_dict.clear() def _ensure_cache_exists(cache_client: momento.CacheClient, cache_name: str) -> None: """Create cache if it doesn't exist. Raises: SdkException: Momento service or network error Exception: Unexpected response """ from momento.responses import CreateCache create_cache_response = cache_client.create_cache(cache_name) if isinstance(create_cache_response, CreateCache.Success) or isinstance( create_cache_response, CreateCache.CacheAlreadyExists ): return None elif isinstance(create_cache_response, CreateCache.Error): raise create_cache_response.inner_exception else: raise Exception(f"Unexpected response cache creation: {create_cache_response}") def _validate_ttl(ttl: Optional[timedelta]) -> None: if ttl is not None and ttl <= timedelta(seconds=0): raise ValueError(f"ttl must be positive but was {ttl}.") class MomentoCache(BaseCache): """Cache that uses Momento as a backend. See https://gomomento.com/""" def __init__( self, cache_client: momento.CacheClient, cache_name: str, *, ttl: Optional[timedelta] = None, ensure_cache_exists: bool = True, ): """Instantiate a prompt cache using Momento as a backend. Note: to instantiate the cache client passed to MomentoCache, you must have a Momento account. See https://gomomento.com/. Args: cache_client (CacheClient): The Momento cache client. cache_name (str): The name of the cache to use to store the data. ttl (Optional[timedelta], optional): The time to live for the cache items. Defaults to None, ie use the client default TTL. ensure_cache_exists (bool, optional): Create the cache if it doesn't exist. Defaults to True. Raises: ImportError: Momento python package is not installed. TypeError: cache_client is not of type momento.CacheClientObject ValueError: ttl is non-null and non-negative """ try: from momento import CacheClient except ImportError: raise ImportError( "Could not import momento python package. " "Please install it with `pip install momento`." ) if not isinstance(cache_client, CacheClient): raise TypeError("cache_client must be a momento.CacheClient object.") _validate_ttl(ttl) if ensure_cache_exists: _ensure_cache_exists(cache_client, cache_name) self.cache_client = cache_client self.cache_name = cache_name self.ttl = ttl @classmethod def from_client_params( cls, cache_name: str, ttl: timedelta, *, configuration: Optional[momento.config.Configuration] = None, api_key: Optional[str] = None, auth_token: Optional[str] = None, # for backwards compatibility **kwargs: Any, ) -> MomentoCache: """Construct cache from CacheClient parameters.""" try: from momento import CacheClient, Configurations, CredentialProvider except ImportError: raise ImportError( "Could not import momento python package. " "Please install it with `pip install momento`." ) if configuration is None: configuration = Configurations.Laptop.v1() # Try checking `MOMENTO_AUTH_TOKEN` first for backwards compatibility try: api_key = auth_token or get_from_env("auth_token", "MOMENTO_AUTH_TOKEN") except ValueError: api_key = api_key or get_from_env("api_key", "MOMENTO_API_KEY") credentials = CredentialProvider.from_string(api_key) cache_client = CacheClient(configuration, credentials, default_ttl=ttl) return cls(cache_client, cache_name, ttl=ttl, **kwargs) def __key(self, prompt: str, llm_string: str) -> str: """Compute cache key from prompt and associated model and settings. Args: prompt (str): The prompt run through the language model. llm_string (str): The language model version and settings. Returns: str: The cache key. """ return _hash(prompt + llm_string) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Lookup llm generations in cache by prompt and associated model and settings. Args: prompt (str): The prompt run through the language model. llm_string (str): The language model version and settings. Raises: SdkException: Momento service or network error Returns: Optional[RETURN_VAL_TYPE]: A list of language model generations. """ from momento.responses import CacheGet generations: RETURN_VAL_TYPE = [] get_response = self.cache_client.get( self.cache_name, self.__key(prompt, llm_string) ) if isinstance(get_response, CacheGet.Hit): value = get_response.value_string generations = _load_generations_from_json(value) elif isinstance(get_response, CacheGet.Miss): pass elif isinstance(get_response, CacheGet.Error): raise get_response.inner_exception return generations if generations else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Store llm generations in cache. Args: prompt (str): The prompt run through the language model. llm_string (str): The language model string. return_val (RETURN_VAL_TYPE): A list of language model generations. Raises: SdkException: Momento service or network error Exception: Unexpected response """ for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "Momento only supports caching of normal LLM generations, " f"got {type(gen)}" ) key = self.__key(prompt, llm_string) value = _dump_generations_to_json(return_val) set_response = self.cache_client.set(self.cache_name, key, value, self.ttl) from momento.responses import CacheSet if isinstance(set_response, CacheSet.Success): pass elif isinstance(set_response, CacheSet.Error): raise set_response.inner_exception else: raise Exception(f"Unexpected response: {set_response}") def clear(self, **kwargs: Any) -> None: """Clear the cache. Raises: SdkException: Momento service or network error """ from momento.responses import CacheFlush flush_response = self.cache_client.flush_cache(self.cache_name) if isinstance(flush_response, CacheFlush.Success): pass elif isinstance(flush_response, CacheFlush.Error): raise flush_response.inner_exception CASSANDRA_CACHE_DEFAULT_TABLE_NAME = "langchain_llm_cache" CASSANDRA_CACHE_DEFAULT_TTL_SECONDS = None class CassandraCache(BaseCache): """ Cache that uses Cassandra / Astra DB as a backend. Example: .. code-block:: python import cassio from langchain_community.cache import CassandraCache from langchain_core.globals import set_llm_cache cassio.init(auto=True) # Requires env. variables, see CassIO docs set_llm_cache(CassandraCache()) It uses a single Cassandra table. The lookup keys (which get to form the primary key) are: - prompt, a string - llm_string, a deterministic str representation of the model parameters. (needed to prevent same-prompt-different-model collisions) Args: session: an open Cassandra session. Leave unspecified to use the global cassio init (see below) keyspace: the keyspace to use for storing the cache. Leave unspecified to use the global cassio init (see below) table_name: name of the Cassandra table to use as cache ttl_seconds: time-to-live for cache entries (default: None, i.e. forever) setup_mode: a value in langchain_community.utilities.cassandra.SetupMode. Choose between SYNC, ASYNC and OFF - the latter if the Cassandra table is guaranteed to exist already, for a faster initialization. Note: The session and keyspace parameters, when left out (or passed as None), fall back to the globally-available cassio settings if any are available. In other words, if a previously-run 'cassio.init(...)' has been executed previously anywhere in the code, Cassandra-based objects need not specify the connection parameters at all. """ def __init__( self, session: Optional[CassandraSession] = None, keyspace: Optional[str] = None, table_name: str = CASSANDRA_CACHE_DEFAULT_TABLE_NAME, ttl_seconds: Optional[int] = CASSANDRA_CACHE_DEFAULT_TTL_SECONDS, skip_provisioning: bool = False, setup_mode: CassandraSetupMode = CassandraSetupMode.SYNC, ): if skip_provisioning: warn_deprecated( "0.0.33", name="skip_provisioning", alternative=( "setup_mode=langchain_community.utilities.cassandra.SetupMode.OFF" ), pending=True, ) try: from cassio.table import ElasticCassandraTable except (ImportError, ModuleNotFoundError): raise ImportError( "Could not import cassio python package. " "Please install it with `pip install -U cassio`." ) self.session = session self.keyspace = keyspace self.table_name = table_name self.ttl_seconds = ttl_seconds kwargs = {} if setup_mode == CassandraSetupMode.ASYNC: kwargs["async_setup"] = True self.kv_cache = ElasticCassandraTable( session=self.session, keyspace=self.keyspace, table=self.table_name, keys=["llm_string", "prompt"], primary_key_type=["TEXT", "TEXT"], ttl_seconds=self.ttl_seconds, skip_provisioning=skip_provisioning or setup_mode == CassandraSetupMode.OFF, **kwargs, ) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: item = self.kv_cache.get( llm_string=_hash(llm_string), prompt=_hash(prompt), ) if item is not None: return _loads_generations(item["body_blob"]) else: return None async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: item = await self.kv_cache.aget( llm_string=_hash(llm_string), prompt=_hash(prompt), ) if item is not None: return _loads_generations(item["body_blob"]) else: return None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: blob = _dumps_generations(return_val) self.kv_cache.put( llm_string=_hash(llm_string), prompt=_hash(prompt), body_blob=blob, ) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: blob = _dumps_generations(return_val) await self.kv_cache.aput( llm_string=_hash(llm_string), prompt=_hash(prompt), body_blob=blob, ) def delete_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> None: """ A wrapper around `delete` with the LLM being passed. In case the llm.invoke(prompt) calls have a `stop` param, you should pass it here """ llm_string = get_prompts( {**llm.dict(), **{"stop": stop}}, [], )[1] return self.delete(prompt, llm_string=llm_string) def delete(self, prompt: str, llm_string: str) -> None: """Evict from cache if there's an entry.""" return self.kv_cache.delete( llm_string=_hash(llm_string), prompt=_hash(prompt), ) def clear(self, **kwargs: Any) -> None: """Clear cache. This is for all LLMs at once.""" self.kv_cache.clear() async def aclear(self, **kwargs: Any) -> None: """Clear cache. This is for all LLMs at once.""" await self.kv_cache.aclear() # This constant is in fact a similarity - the 'distance' name is kept for compatibility: CASSANDRA_SEMANTIC_CACHE_DEFAULT_DISTANCE_METRIC = "dot" CASSANDRA_SEMANTIC_CACHE_DEFAULT_SCORE_THRESHOLD = 0.85 CASSANDRA_SEMANTIC_CACHE_DEFAULT_TABLE_NAME = "langchain_llm_semantic_cache" CASSANDRA_SEMANTIC_CACHE_DEFAULT_TTL_SECONDS = None CASSANDRA_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE = 16 class CassandraSemanticCache(BaseCache): """ Cache that uses Cassandra as a vector-store backend for semantic (i.e. similarity-based) lookup. Example: .. code-block:: python import cassio from langchain_community.cache import CassandraSemanticCache from langchain_core.globals import set_llm_cache cassio.init(auto=True) # Requires env. variables, see CassIO docs my_embedding = ... set_llm_cache(CassandraSemanticCache( embedding=my_embedding, table_name="my_semantic_cache", )) It uses a single (vector) Cassandra table and stores, in principle, cached values from several LLMs, so the LLM's llm_string is part of the rows' primary keys. One can choose a similarity measure (default: "dot" for dot-product). Choosing another one ("cos", "l2") almost certainly requires threshold tuning. (which may be in order nevertheless, even if sticking to "dot"). Args: session: an open Cassandra session. Leave unspecified to use the global cassio init (see below) keyspace: the keyspace to use for storing the cache. Leave unspecified to use the global cassio init (see below) embedding: Embedding provider for semantic encoding and search. table_name: name of the Cassandra (vector) table to use as cache. There is a default for "simple" usage, but remember to explicitly specify different tables if several embedding models coexist in your app (they cannot share one cache table). distance_metric: an alias for the 'similarity_measure' parameter (see below). As the "distance" terminology is misleading, please prefer 'similarity_measure' for clarity. score_threshold: numeric value to use as cutoff for the similarity searches ttl_seconds: time-to-live for cache entries (default: None, i.e. forever) similarity_measure: which measure to adopt for similarity searches. Note: this parameter is aliased by 'distance_metric' - however, it is suggested to use the "similarity" terminology since this value is in fact a similarity (i.e. higher means closer). Note that at most one of the two parameters 'distance_metric' and 'similarity_measure' can be provided. setup_mode: a value in langchain_community.utilities.cassandra.SetupMode. Choose between SYNC, ASYNC and OFF - the latter if the Cassandra table is guaranteed to exist already, for a faster initialization. Note: The session and keyspace parameters, when left out (or passed as None), fall back to the globally-available cassio settings if any are available. In other words, if a previously-run 'cassio.init(...)' has been executed previously anywhere in the code, Cassandra-based objects need not specify the connection parameters at all. """ def __init__( self, session: Optional[CassandraSession] = None, keyspace: Optional[str] = None, embedding: Optional[Embeddings] = None, table_name: str = CASSANDRA_SEMANTIC_CACHE_DEFAULT_TABLE_NAME, distance_metric: Optional[str] = None, score_threshold: float = CASSANDRA_SEMANTIC_CACHE_DEFAULT_SCORE_THRESHOLD, ttl_seconds: Optional[int] = CASSANDRA_SEMANTIC_CACHE_DEFAULT_TTL_SECONDS, skip_provisioning: bool = False, similarity_measure: str = CASSANDRA_SEMANTIC_CACHE_DEFAULT_DISTANCE_METRIC, setup_mode: CassandraSetupMode = CassandraSetupMode.SYNC, ): if skip_provisioning: warn_deprecated( "0.0.33", name="skip_provisioning", alternative=( "setup_mode=langchain_community.utilities.cassandra.SetupMode.OFF" ), pending=True, ) try: from cassio.table import MetadataVectorCassandraTable except (ImportError, ModuleNotFoundError): raise ImportError( "Could not import cassio python package. " "Please install it with `pip install -U cassio`." ) if not embedding: raise ValueError("Missing required parameter 'embedding'.") # detect if legacy 'distance_metric' parameter used if distance_metric is not None: # if passed, takes precedence over 'similarity_measure', but we warn: warn_deprecated( "0.0.33", name="distance_metric", alternative="similarity_measure", pending=True, ) similarity_measure = distance_metric self.session = session self.keyspace = keyspace self.embedding = embedding self.table_name = table_name self.similarity_measure = similarity_measure self.score_threshold = score_threshold self.ttl_seconds = ttl_seconds # The contract for this class has separate lookup and update: # in order to spare some embedding calculations we cache them between # the two calls. # Note: each instance of this class has its own `_get_embedding` with # its own lru. @lru_cache(maxsize=CASSANDRA_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE) def _cache_embedding(text: str) -> List[float]: return self.embedding.embed_query(text=text) self._get_embedding = _cache_embedding @_async_lru_cache(maxsize=CASSANDRA_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE) async def _acache_embedding(text: str) -> List[float]: return await self.embedding.aembed_query(text=text) self._aget_embedding = _acache_embedding embedding_dimension: Union[int, Awaitable[int], None] = None if setup_mode == CassandraSetupMode.ASYNC: embedding_dimension = self._aget_embedding_dimension() elif setup_mode == CassandraSetupMode.SYNC: embedding_dimension = self._get_embedding_dimension() kwargs = {} if setup_mode == CassandraSetupMode.ASYNC: kwargs["async_setup"] = True self.table = MetadataVectorCassandraTable( session=self.session, keyspace=self.keyspace, table=self.table_name, primary_key_type=["TEXT"], vector_dimension=embedding_dimension, ttl_seconds=self.ttl_seconds, metadata_indexing=("allow", {"_llm_string_hash"}), skip_provisioning=skip_provisioning or setup_mode == CassandraSetupMode.OFF, **kwargs, ) def _get_embedding_dimension(self) -> int: return len(self._get_embedding(text="This is a sample sentence.")) async def _aget_embedding_dimension(self) -> int: return len(await self._aget_embedding(text="This is a sample sentence.")) def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: embedding_vector = self._get_embedding(text=prompt) llm_string_hash = _hash(llm_string) body = _dumps_generations(return_val) metadata = { "_prompt": prompt, "_llm_string_hash": llm_string_hash, } row_id = f"{_hash(prompt)}-{llm_string_hash}" self.table.put( body_blob=body, vector=embedding_vector, row_id=row_id, metadata=metadata, ) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: embedding_vector = await self._aget_embedding(text=prompt) llm_string_hash = _hash(llm_string) body = _dumps_generations(return_val) metadata = { "_prompt": prompt, "_llm_string_hash": llm_string_hash, } row_id = f"{_hash(prompt)}-{llm_string_hash}" await self.table.aput( body_blob=body, vector=embedding_vector, row_id=row_id, metadata=metadata, ) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: hit_with_id = self.lookup_with_id(prompt, llm_string) if hit_with_id is not None: return hit_with_id[1] else: return None async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: hit_with_id = await self.alookup_with_id(prompt, llm_string) if hit_with_id is not None: return hit_with_id[1] else: return None def lookup_with_id( self, prompt: str, llm_string: str ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: """ Look up based on prompt and llm_string. If there are hits, return (document_id, cached_entry) """ prompt_embedding: List[float] = self._get_embedding(text=prompt) hits = list( self.table.metric_ann_search( vector=prompt_embedding, metadata={"_llm_string_hash": _hash(llm_string)}, n=1, metric=self.similarity_measure, metric_threshold=self.score_threshold, ) ) if hits: hit = hits[0] generations = _loads_generations(hit["body_blob"]) if generations is not None: # this protects against malformed cached items: return ( hit["row_id"], generations, ) else: return None else: return None async def alookup_with_id( self, prompt: str, llm_string: str ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: """ Look up based on prompt and llm_string. If there are hits, return (document_id, cached_entry) """ prompt_embedding: List[float] = await self._aget_embedding(text=prompt) hits = list( await self.table.ametric_ann_search( vector=prompt_embedding, metadata={"_llm_string_hash": _hash(llm_string)}, n=1, metric=self.similarity_measure, metric_threshold=self.score_threshold, ) ) if hits: hit = hits[0] generations = _loads_generations(hit["body_blob"]) if generations is not None: # this protects against malformed cached items: return ( hit["row_id"], generations, ) else: return None else: return None def lookup_with_id_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: llm_string = get_prompts( {**llm.dict(), **{"stop": stop}}, [], )[1] return self.lookup_with_id(prompt, llm_string=llm_string) async def alookup_with_id_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: llm_string = ( await aget_prompts( {**llm.dict(), **{"stop": stop}}, [], ) )[1] return await self.alookup_with_id(prompt, llm_string=llm_string) def delete_by_document_id(self, document_id: str) -> None: """ Given this is a "similarity search" cache, an invalidation pattern that makes sense is first a lookup to get an ID, and then deleting with that ID. This is for the second step. """ self.table.delete(row_id=document_id) async def adelete_by_document_id(self, document_id: str) -> None: """ Given this is a "similarity search" cache, an invalidation pattern that makes sense is first a lookup to get an ID, and then deleting with that ID. This is for the second step. """ await self.table.adelete(row_id=document_id) def clear(self, **kwargs: Any) -> None: """Clear the *whole* semantic cache.""" self.table.clear() async def aclear(self, **kwargs: Any) -> None: """Clear the *whole* semantic cache.""" await self.table.aclear() class FullMd5LLMCache(Base): # type: ignore """SQLite table for full LLM Cache (all generations).""" __tablename__ = "full_md5_llm_cache" id = Column(String, primary_key=True) prompt_md5 = Column(String, index=True) llm = Column(String, index=True) idx = Column(Integer, index=True) prompt = Column(String) response = Column(String) class SQLAlchemyMd5Cache(BaseCache): """Cache that uses SQAlchemy as a backend.""" def __init__( self, engine: Engine, cache_schema: Type[FullMd5LLMCache] = FullMd5LLMCache ): """Initialize by creating all tables.""" self.engine = engine self.cache_schema = cache_schema self.cache_schema.metadata.create_all(self.engine) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" rows = self._search_rows(prompt, llm_string) if rows: return [loads(row[0]) for row in rows] return None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update based on prompt and llm_string.""" with Session(self.engine) as session, session.begin(): self._delete_previous(session, prompt, llm_string) prompt_md5 = self.get_md5(prompt) items = [ self.cache_schema( id=str(uuid.uuid1()), prompt=prompt, prompt_md5=prompt_md5, llm=llm_string, response=dumps(gen), idx=i, ) for i, gen in enumerate(return_val) ] for item in items: session.merge(item) def _delete_previous(self, session: Session, prompt: str, llm_string: str) -> None: stmt = ( delete(self.cache_schema) .where(self.cache_schema.prompt_md5 == self.get_md5(prompt)) # type: ignore .where(self.cache_schema.llm == llm_string) .where(self.cache_schema.prompt == prompt) ) session.execute(stmt) def _search_rows(self, prompt: str, llm_string: str) -> Sequence[Row]: prompt_pd5 = self.get_md5(prompt) stmt = ( select(self.cache_schema.response) .where(self.cache_schema.prompt_md5 == prompt_pd5) # type: ignore .where(self.cache_schema.llm == llm_string) .where(self.cache_schema.prompt == prompt) .order_by(self.cache_schema.idx) ) with Session(self.engine) as session: return session.execute(stmt).fetchall() def clear(self, **kwargs: Any) -> None: """Clear cache.""" with Session(self.engine) as session: session.execute(self.cache_schema.delete()) @staticmethod def get_md5(input_string: str) -> str: return hashlib.md5(input_string.encode()).hexdigest() ASTRA_DB_CACHE_DEFAULT_COLLECTION_NAME = "langchain_astradb_cache" @deprecated( since="0.0.28", removal="0.3.0", alternative_import="langchain_astradb.AstraDBCache", ) class AstraDBCache(BaseCache): @staticmethod def _make_id(prompt: str, llm_string: str) -> str: return f"{_hash(prompt)}#{_hash(llm_string)}" def __init__( self, *, collection_name: str = ASTRA_DB_CACHE_DEFAULT_COLLECTION_NAME, token: Optional[str] = None, api_endpoint: Optional[str] = None, astra_db_client: Optional[AstraDB] = None, async_astra_db_client: Optional[AsyncAstraDB] = None, namespace: Optional[str] = None, pre_delete_collection: bool = False, setup_mode: AstraSetupMode = AstraSetupMode.SYNC, ): """ Cache that uses Astra DB as a backend. It uses a single collection as a kv store The lookup keys, combined in the _id of the documents, are: - prompt, a string - llm_string, a deterministic str representation of the model parameters. (needed to prevent same-prompt-different-model collisions) Args: collection_name: name of the Astra DB collection to create/use. token: API token for Astra DB usage. api_endpoint: full URL to the API endpoint, such as `https://-us-east1.apps.astra.datastax.com`. astra_db_client: *alternative to token+api_endpoint*, you can pass an already-created 'astrapy.db.AstraDB' instance. async_astra_db_client: *alternative to token+api_endpoint*, you can pass an already-created 'astrapy.db.AsyncAstraDB' instance. namespace: namespace (aka keyspace) where the collection is created. Defaults to the database's "default namespace". setup_mode: mode used to create the Astra DB collection (SYNC, ASYNC or OFF). pre_delete_collection: whether to delete the collection before creating it. If False and the collection already exists, the collection will be used as is. """ self.astra_env = _AstraDBCollectionEnvironment( collection_name=collection_name, token=token, api_endpoint=api_endpoint, astra_db_client=astra_db_client, async_astra_db_client=async_astra_db_client, namespace=namespace, setup_mode=setup_mode, pre_delete_collection=pre_delete_collection, ) self.collection = self.astra_env.collection self.async_collection = self.astra_env.async_collection def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: self.astra_env.ensure_db_setup() doc_id = self._make_id(prompt, llm_string) item = self.collection.find_one( filter={ "_id": doc_id, }, projection={ "body_blob": 1, }, )["data"]["document"] return _loads_generations(item["body_blob"]) if item is not None else None async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: await self.astra_env.aensure_db_setup() doc_id = self._make_id(prompt, llm_string) item = ( await self.async_collection.find_one( filter={ "_id": doc_id, }, projection={ "body_blob": 1, }, ) )["data"]["document"] return _loads_generations(item["body_blob"]) if item is not None else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: self.astra_env.ensure_db_setup() doc_id = self._make_id(prompt, llm_string) blob = _dumps_generations(return_val) self.collection.upsert( { "_id": doc_id, "body_blob": blob, }, ) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: await self.astra_env.aensure_db_setup() doc_id = self._make_id(prompt, llm_string) blob = _dumps_generations(return_val) await self.async_collection.upsert( { "_id": doc_id, "body_blob": blob, }, ) def delete_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> None: """ A wrapper around `delete` with the LLM being passed. In case the llm.invoke(prompt) calls have a `stop` param, you should pass it here """ llm_string = get_prompts( {**llm.dict(), **{"stop": stop}}, [], )[1] return self.delete(prompt, llm_string=llm_string) async def adelete_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> None: """ A wrapper around `adelete` with the LLM being passed. In case the llm.invoke(prompt) calls have a `stop` param, you should pass it here """ llm_string = ( await aget_prompts( {**llm.dict(), **{"stop": stop}}, [], ) )[1] return await self.adelete(prompt, llm_string=llm_string) def delete(self, prompt: str, llm_string: str) -> None: """Evict from cache if there's an entry.""" self.astra_env.ensure_db_setup() doc_id = self._make_id(prompt, llm_string) self.collection.delete_one(doc_id) async def adelete(self, prompt: str, llm_string: str) -> None: """Evict from cache if there's an entry.""" await self.astra_env.aensure_db_setup() doc_id = self._make_id(prompt, llm_string) await self.async_collection.delete_one(doc_id) def clear(self, **kwargs: Any) -> None: self.astra_env.ensure_db_setup() self.collection.clear() async def aclear(self, **kwargs: Any) -> None: await self.astra_env.aensure_db_setup() await self.async_collection.clear() ASTRA_DB_SEMANTIC_CACHE_DEFAULT_THRESHOLD = 0.85 ASTRA_DB_CACHE_DEFAULT_COLLECTION_NAME = "langchain_astradb_semantic_cache" ASTRA_DB_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE = 16 _unset = ["unset"] class _CachedAwaitable: """Caches the result of an awaitable so it can be awaited multiple times""" def __init__(self, awaitable: Awaitable[Any]): self.awaitable = awaitable self.result = _unset def __await__(self) -> Generator: if self.result is _unset: self.result = yield from self.awaitable.__await__() return self.result def _reawaitable(func: Callable) -> Callable: """Makes an async function result awaitable multiple times""" @wraps(func) def wrapper(*args: Any, **kwargs: Any) -> _CachedAwaitable: return _CachedAwaitable(func(*args, **kwargs)) return wrapper def _async_lru_cache(maxsize: int = 128, typed: bool = False) -> Callable: """Least-recently-used async cache decorator. Equivalent to functools.lru_cache for async functions""" def decorating_function(user_function: Callable) -> Callable: return lru_cache(maxsize, typed)(_reawaitable(user_function)) return decorating_function @deprecated( since="0.0.28", removal="0.3.0", alternative_import="langchain_astradb.AstraDBSemanticCache", ) class AstraDBSemanticCache(BaseCache): def __init__( self, *, collection_name: str = ASTRA_DB_CACHE_DEFAULT_COLLECTION_NAME, token: Optional[str] = None, api_endpoint: Optional[str] = None, astra_db_client: Optional[AstraDB] = None, async_astra_db_client: Optional[AsyncAstraDB] = None, namespace: Optional[str] = None, setup_mode: AstraSetupMode = AstraSetupMode.SYNC, pre_delete_collection: bool = False, embedding: Embeddings, metric: Optional[str] = None, similarity_threshold: float = ASTRA_DB_SEMANTIC_CACHE_DEFAULT_THRESHOLD, ): """ Cache that uses Astra DB as a vector-store backend for semantic (i.e. similarity-based) lookup. It uses a single (vector) collection and can store cached values from several LLMs, so the LLM's 'llm_string' is stored in the document metadata. You can choose the preferred similarity (or use the API default). The default score threshold is tuned to the default metric. Tune it carefully yourself if switching to another distance metric. Args: collection_name: name of the Astra DB collection to create/use. token: API token for Astra DB usage. api_endpoint: full URL to the API endpoint, such as `https://-us-east1.apps.astra.datastax.com`. astra_db_client: *alternative to token+api_endpoint*, you can pass an already-created 'astrapy.db.AstraDB' instance. async_astra_db_client: *alternative to token+api_endpoint*, you can pass an already-created 'astrapy.db.AsyncAstraDB' instance. namespace: namespace (aka keyspace) where the collection is created. Defaults to the database's "default namespace". setup_mode: mode used to create the Astra DB collection (SYNC, ASYNC or OFF). pre_delete_collection: whether to delete the collection before creating it. If False and the collection already exists, the collection will be used as is. embedding: Embedding provider for semantic encoding and search. metric: the function to use for evaluating similarity of text embeddings. Defaults to 'cosine' (alternatives: 'euclidean', 'dot_product') similarity_threshold: the minimum similarity for accepting a (semantic-search) match. """ self.embedding = embedding self.metric = metric self.similarity_threshold = similarity_threshold self.collection_name = collection_name # The contract for this class has separate lookup and update: # in order to spare some embedding calculations we cache them between # the two calls. # Note: each instance of this class has its own `_get_embedding` with # its own lru. @lru_cache(maxsize=ASTRA_DB_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE) def _cache_embedding(text: str) -> List[float]: return self.embedding.embed_query(text=text) self._get_embedding = _cache_embedding @_async_lru_cache(maxsize=ASTRA_DB_SEMANTIC_CACHE_EMBEDDING_CACHE_SIZE) async def _acache_embedding(text: str) -> List[float]: return await self.embedding.aembed_query(text=text) self._aget_embedding = _acache_embedding embedding_dimension: Union[int, Awaitable[int], None] = None if setup_mode == AstraSetupMode.ASYNC: embedding_dimension = self._aget_embedding_dimension() elif setup_mode == AstraSetupMode.SYNC: embedding_dimension = self._get_embedding_dimension() self.astra_env = _AstraDBCollectionEnvironment( collection_name=collection_name, token=token, api_endpoint=api_endpoint, astra_db_client=astra_db_client, async_astra_db_client=async_astra_db_client, namespace=namespace, setup_mode=setup_mode, pre_delete_collection=pre_delete_collection, embedding_dimension=embedding_dimension, metric=metric, ) self.collection = self.astra_env.collection self.async_collection = self.astra_env.async_collection def _get_embedding_dimension(self) -> int: return len(self._get_embedding(text="This is a sample sentence.")) async def _aget_embedding_dimension(self) -> int: return len(await self._aget_embedding(text="This is a sample sentence.")) @staticmethod def _make_id(prompt: str, llm_string: str) -> str: return f"{_hash(prompt)}#{_hash(llm_string)}" def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: self.astra_env.ensure_db_setup() doc_id = self._make_id(prompt, llm_string) llm_string_hash = _hash(llm_string) embedding_vector = self._get_embedding(text=prompt) body = _dumps_generations(return_val) # self.collection.upsert( { "_id": doc_id, "body_blob": body, "llm_string_hash": llm_string_hash, "$vector": embedding_vector, } ) async def aupdate( self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE ) -> None: await self.astra_env.aensure_db_setup() doc_id = self._make_id(prompt, llm_string) llm_string_hash = _hash(llm_string) embedding_vector = await self._aget_embedding(text=prompt) body = _dumps_generations(return_val) # await self.async_collection.upsert( { "_id": doc_id, "body_blob": body, "llm_string_hash": llm_string_hash, "$vector": embedding_vector, } ) def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: hit_with_id = self.lookup_with_id(prompt, llm_string) if hit_with_id is not None: return hit_with_id[1] else: return None async def alookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: hit_with_id = await self.alookup_with_id(prompt, llm_string) if hit_with_id is not None: return hit_with_id[1] else: return None def lookup_with_id( self, prompt: str, llm_string: str ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: """ Look up based on prompt and llm_string. If there are hits, return (document_id, cached_entry) for the top hit """ self.astra_env.ensure_db_setup() prompt_embedding: List[float] = self._get_embedding(text=prompt) llm_string_hash = _hash(llm_string) hit = self.collection.vector_find_one( vector=prompt_embedding, filter={ "llm_string_hash": llm_string_hash, }, fields=["body_blob", "_id"], include_similarity=True, ) if hit is None or hit["$similarity"] < self.similarity_threshold: return None else: generations = _loads_generations(hit["body_blob"]) if generations is not None: # this protects against malformed cached items: return hit["_id"], generations else: return None async def alookup_with_id( self, prompt: str, llm_string: str ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: """ Look up based on prompt and llm_string. If there are hits, return (document_id, cached_entry) for the top hit """ await self.astra_env.aensure_db_setup() prompt_embedding: List[float] = await self._aget_embedding(text=prompt) llm_string_hash = _hash(llm_string) hit = await self.async_collection.vector_find_one( vector=prompt_embedding, filter={ "llm_string_hash": llm_string_hash, }, fields=["body_blob", "_id"], include_similarity=True, ) if hit is None or hit["$similarity"] < self.similarity_threshold: return None else: generations = _loads_generations(hit["body_blob"]) if generations is not None: # this protects against malformed cached items: return hit["_id"], generations else: return None def lookup_with_id_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: llm_string = get_prompts( {**llm.dict(), **{"stop": stop}}, [], )[1] return self.lookup_with_id(prompt, llm_string=llm_string) async def alookup_with_id_through_llm( self, prompt: str, llm: LLM, stop: Optional[List[str]] = None ) -> Optional[Tuple[str, RETURN_VAL_TYPE]]: llm_string = ( await aget_prompts( {**llm.dict(), **{"stop": stop}}, [], ) )[1] return await self.alookup_with_id(prompt, llm_string=llm_string) def delete_by_document_id(self, document_id: str) -> None: """ Given this is a "similarity search" cache, an invalidation pattern that makes sense is first a lookup to get an ID, and then deleting with that ID. This is for the second step. """ self.astra_env.ensure_db_setup() self.collection.delete_one(document_id) async def adelete_by_document_id(self, document_id: str) -> None: """ Given this is a "similarity search" cache, an invalidation pattern that makes sense is first a lookup to get an ID, and then deleting with that ID. This is for the second step. """ await self.astra_env.aensure_db_setup() await self.async_collection.delete_one(document_id) def clear(self, **kwargs: Any) -> None: self.astra_env.ensure_db_setup() self.collection.clear() async def aclear(self, **kwargs: Any) -> None: await self.astra_env.aensure_db_setup() await self.async_collection.clear() class AzureCosmosDBSemanticCache(BaseCache): """Cache that uses Cosmos DB Mongo vCore vector-store backend""" DEFAULT_DATABASE_NAME = "CosmosMongoVCoreCacheDB" DEFAULT_COLLECTION_NAME = "CosmosMongoVCoreCacheColl" def __init__( self, cosmosdb_connection_string: str, database_name: str, collection_name: str, embedding: Embeddings, *, cosmosdb_client: Optional[Any] = None, num_lists: int = 100, similarity: CosmosDBSimilarityType = CosmosDBSimilarityType.COS, kind: CosmosDBVectorSearchType = CosmosDBVectorSearchType.VECTOR_IVF, dimensions: int = 1536, m: int = 16, ef_construction: int = 64, ef_search: int = 40, score_threshold: Optional[float] = None, application_name: str = "LANGCHAIN_CACHING_PYTHON", ): """ Args: cosmosdb_connection_string: Cosmos DB Mongo vCore connection string cosmosdb_client: Cosmos DB Mongo vCore client embedding (Embedding): Embedding provider for semantic encoding and search. database_name: Database name for the CosmosDBMongoVCoreSemanticCache collection_name: Collection name for the CosmosDBMongoVCoreSemanticCache num_lists: This integer is the number of clusters that the inverted file (IVF) index uses to group the vector data. We recommend that numLists is set to documentCount/1000 for up to 1 million documents and to sqrt(documentCount) for more than 1 million documents. Using a numLists value of 1 is akin to performing brute-force search, which has limited performance dimensions: Number of dimensions for vector similarity. The maximum number of supported dimensions is 2000 similarity: Similarity metric to use with the IVF index. Possible options are: - CosmosDBSimilarityType.COS (cosine distance), - CosmosDBSimilarityType.L2 (Euclidean distance), and - CosmosDBSimilarityType.IP (inner product). kind: Type of vector index to create. Possible options are: - vector-ivf - vector-hnsw: available as a preview feature only, to enable visit https://learn.microsoft.com/en-us/azure/azure-resource-manager/management/preview-features m: The max number of connections per layer (16 by default, minimum value is 2, maximum value is 100). Higher m is suitable for datasets with high dimensionality and/or high accuracy requirements. ef_construction: the size of the dynamic candidate list for constructing the graph (64 by default, minimum value is 4, maximum value is 1000). Higher ef_construction will result in better index quality and higher accuracy, but it will also increase the time required to build the index. ef_construction has to be at least 2 * m ef_search: The size of the dynamic candidate list for search (40 by default). A higher value provides better recall at the cost of speed. score_threshold: Maximum score used to filter the vector search documents. application_name: Application name for the client for tracking and logging """ self._validate_enum_value(similarity, CosmosDBSimilarityType) self._validate_enum_value(kind, CosmosDBVectorSearchType) if not cosmosdb_connection_string: raise ValueError(" CosmosDB connection string can be empty.") self.cosmosdb_connection_string = cosmosdb_connection_string self.cosmosdb_client = cosmosdb_client self.embedding = embedding self.database_name = database_name or self.DEFAULT_DATABASE_NAME self.collection_name = collection_name or self.DEFAULT_COLLECTION_NAME self.num_lists = num_lists self.dimensions = dimensions self.similarity = similarity self.kind = kind self.m = m self.ef_construction = ef_construction self.ef_search = ef_search self.score_threshold = score_threshold self._cache_dict: Dict[str, AzureCosmosDBVectorSearch] = {} self.application_name = application_name def _index_name(self, llm_string: str) -> str: hashed_index = _hash(llm_string) return f"cache:{hashed_index}" def _get_llm_cache(self, llm_string: str) -> AzureCosmosDBVectorSearch: index_name = self._index_name(llm_string) namespace = self.database_name + "." + self.collection_name # return vectorstore client for the specific llm string if index_name in self._cache_dict: return self._cache_dict[index_name] # create new vectorstore client for the specific llm string if self.cosmosdb_client: collection = self.cosmosdb_client[self.database_name][self.collection_name] self._cache_dict[index_name] = AzureCosmosDBVectorSearch( collection=collection, embedding=self.embedding, index_name=index_name, ) else: self._cache_dict[ index_name ] = AzureCosmosDBVectorSearch.from_connection_string( connection_string=self.cosmosdb_connection_string, namespace=namespace, embedding=self.embedding, index_name=index_name, application_name=self.application_name, ) # create index for the vectorstore vectorstore = self._cache_dict[index_name] if not vectorstore.index_exists(): vectorstore.create_index( self.num_lists, self.dimensions, self.similarity, self.kind, self.m, self.ef_construction, ) return vectorstore def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" llm_cache = self._get_llm_cache(llm_string) generations: List = [] # Read from a Hash results = llm_cache.similarity_search( query=prompt, k=1, kind=self.kind, ef_search=self.ef_search, score_threshold=self.score_threshold, # type: ignore[arg-type] ) if results: for document in results: try: generations.extend(loads(document.metadata["return_val"])) except Exception: logger.warning( "Retrieving a cache value that could not be deserialized " "properly. This is likely due to the cache being in an " "older format. Please recreate your cache to avoid this " "error." ) # In a previous life we stored the raw text directly # in the table, so assume it's in that format. generations.extend( _load_generations_from_json(document.metadata["return_val"]) ) return generations if generations else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "CosmosDBMongoVCoreSemanticCache only supports caching of " f"normal LLM generations, got {type(gen)}" ) llm_cache = self._get_llm_cache(llm_string) metadata = { "llm_string": llm_string, "prompt": prompt, "return_val": dumps([g for g in return_val]), } llm_cache.add_texts(texts=[prompt], metadatas=[metadata]) def clear(self, **kwargs: Any) -> None: """Clear semantic cache for a given llm_string.""" index_name = self._index_name(kwargs["llm_string"]) if index_name in self._cache_dict: self._cache_dict[index_name].get_collection().delete_many({}) # self._cache_dict[index_name].clear_collection() @staticmethod def _validate_enum_value(value: Any, enum_type: Type[Enum]) -> None: if not isinstance(value, enum_type): raise ValueError(f"Invalid enum value: {value}. Expected {enum_type}.") class OpenSearchSemanticCache(BaseCache): """Cache that uses OpenSearch vector store backend""" def __init__( self, opensearch_url: str, embedding: Embeddings, score_threshold: float = 0.2 ): """ Args: opensearch_url (str): URL to connect to OpenSearch. embedding (Embedding): Embedding provider for semantic encoding and search. score_threshold (float, 0.2): Example: .. code-block:: python import langchain from langchain.cache import OpenSearchSemanticCache from langchain.embeddings import OpenAIEmbeddings langchain.llm_cache = OpenSearchSemanticCache( opensearch_url="http//localhost:9200", embedding=OpenAIEmbeddings() ) """ self._cache_dict: Dict[str, OpenSearchVectorStore] = {} self.opensearch_url = opensearch_url self.embedding = embedding self.score_threshold = score_threshold def _index_name(self, llm_string: str) -> str: hashed_index = _hash(llm_string) return f"cache_{hashed_index}" def _get_llm_cache(self, llm_string: str) -> OpenSearchVectorStore: index_name = self._index_name(llm_string) # return vectorstore client for the specific llm string if index_name in self._cache_dict: return self._cache_dict[index_name] # create new vectorstore client for the specific llm string self._cache_dict[index_name] = OpenSearchVectorStore( opensearch_url=self.opensearch_url, index_name=index_name, embedding_function=self.embedding, ) # create index for the vectorstore vectorstore = self._cache_dict[index_name] if not vectorstore.index_exists(): _embedding = self.embedding.embed_query(text="test") vectorstore.create_index(len(_embedding), index_name) return vectorstore def lookup(self, prompt: str, llm_string: str) -> Optional[RETURN_VAL_TYPE]: """Look up based on prompt and llm_string.""" llm_cache = self._get_llm_cache(llm_string) generations: List = [] # Read from a Hash results = llm_cache.similarity_search( query=prompt, k=1, score_threshold=self.score_threshold, ) if results: for document in results: try: generations.extend(loads(document.metadata["return_val"])) except Exception: logger.warning( "Retrieving a cache value that could not be deserialized " "properly. This is likely due to the cache being in an " "older format. Please recreate your cache to avoid this " "error." ) generations.extend( _load_generations_from_json(document.metadata["return_val"]) ) return generations if generations else None def update(self, prompt: str, llm_string: str, return_val: RETURN_VAL_TYPE) -> None: """Update cache based on prompt and llm_string.""" for gen in return_val: if not isinstance(gen, Generation): raise ValueError( "OpenSearchSemanticCache only supports caching of " f"normal LLM generations, got {type(gen)}" ) llm_cache = self._get_llm_cache(llm_string) metadata = { "llm_string": llm_string, "prompt": prompt, "return_val": dumps([g for g in return_val]), } llm_cache.add_texts(texts=[prompt], metadatas=[metadata]) def clear(self, **kwargs: Any) -> None: """Clear semantic cache for a given llm_string.""" index_name = self._index_name(kwargs["llm_string"]) if index_name in self._cache_dict: self._cache_dict[index_name].delete_index(index_name=index_name) del self._cache_dict[index_name]