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fd64ad4ca6da-88 | https://python.langchain.com/en/latest/genindex.html | store (langchain.memory.InMemoryEntityStore attribute)
strategy (langchain.llms.RWKV attribute)
stream() (langchain.llms.Anthropic method)
(langchain.llms.AzureOpenAI method)
(langchain.llms.LlamaCpp method)
(langchain.llms.OpenAI method)
(langchain.llms.OpenLM method)
(langchain.llms.PromptLayerOpenAI method)
streaming (langchain.chat_models.ChatOpenAI attribute)
(langchain.llms.Anthropic attribute)
(langchain.llms.AzureOpenAI attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.LlamaCpp attribute)
(langchain.llms.OpenAI attribute)
(langchain.llms.OpenAIChat attribute)
(langchain.llms.OpenLM attribute)
(langchain.llms.PromptLayerOpenAIChat attribute)
strip_outputs (langchain.chains.SimpleSequentialChain attribute)
StripeLoader (class in langchain.document_loaders)
STRUCTURED_CHAT_ZERO_SHOT_REACT_DESCRIPTION (langchain.agents.AgentType attribute)
structured_query_translator (langchain.retrievers.SelfQueryRetriever attribute)
suffix (langchain.llms.LlamaCpp attribute)
(langchain.prompts.FewShotPromptTemplate attribute)
(langchain.prompts.FewShotPromptWithTemplates attribute)
summarize_related_memories() (langchain.experimental.GenerativeAgent method)
summary (langchain.experimental.GenerativeAgent attribute)
summary_message_cls (langchain.memory.ConversationKGMemory attribute)
summary_refresh_seconds (langchain.experimental.GenerativeAgent attribute)
SupabaseVectorStore (class in langchain.vectorstores)
SWIFT (langchain.text_splitter.Language attribute)
sync_browser (langchain.agents.agent_toolkits.PlayWrightBrowserToolkit attribute)
T
table (langchain.vectorstores.MyScaleSettings attribute) |
fd64ad4ca6da-89 | https://python.langchain.com/en/latest/genindex.html | T
table (langchain.vectorstores.MyScaleSettings attribute)
table_info (langchain.utilities.PowerBIDataset property)
table_name (langchain.memory.SQLiteEntityStore attribute)
(langchain.vectorstores.SupabaseVectorStore attribute)
table_names (langchain.utilities.PowerBIDataset attribute)
Tair (class in langchain.vectorstores)
task (langchain.embeddings.HuggingFaceHubEmbeddings attribute)
(langchain.llms.HuggingFaceEndpoint attribute)
(langchain.llms.HuggingFaceHub attribute)
(langchain.llms.SelfHostedHuggingFaceLLM attribute)
tbs (langchain.utilities.GoogleSerperAPIWrapper attribute)
TelegramChatApiLoader (class in langchain.document_loaders)
TelegramChatFileLoader (class in langchain.document_loaders)
TelegramChatLoader (in module langchain.document_loaders)
temp (langchain.llms.GPT4All attribute)
temperature (langchain.chat_models.ChatGooglePalm attribute)
(langchain.chat_models.ChatOpenAI attribute)
(langchain.llms.AI21 attribute)
(langchain.llms.AlephAlpha attribute)
(langchain.llms.Anthropic attribute)
(langchain.llms.AzureOpenAI attribute)
(langchain.llms.Cohere attribute)
(langchain.llms.ForefrontAI attribute)
(langchain.llms.GooglePalm attribute)
(langchain.llms.GooseAI attribute)
(langchain.llms.LlamaCpp attribute)
(langchain.llms.NLPCloud attribute)
(langchain.llms.OpenAI attribute)
(langchain.llms.OpenLM attribute)
(langchain.llms.Petals attribute)
(langchain.llms.PredictionGuard attribute)
(langchain.llms.RWKV attribute)
(langchain.llms.VertexAI attribute)
(langchain.llms.Writer attribute)
template (langchain.prompts.PromptTemplate attribute) |
fd64ad4ca6da-90 | https://python.langchain.com/en/latest/genindex.html | (langchain.llms.Writer attribute)
template (langchain.prompts.PromptTemplate attribute)
(langchain.tools.QueryPowerBITool attribute)
template_format (langchain.prompts.FewShotPromptTemplate attribute)
(langchain.prompts.FewShotPromptWithTemplates attribute)
(langchain.prompts.PromptTemplate attribute)
template_tool_response (langchain.agents.ConversationalChatAgent attribute)
text_length (langchain.chains.LLMRequestsChain attribute)
text_splitter (langchain.chains.AnalyzeDocumentChain attribute)
(langchain.chains.MapReduceChain attribute)
(langchain.chains.QAGenerationChain attribute)
TextLoader (class in langchain.document_loaders)
texts (langchain.retrievers.KNNRetriever attribute)
(langchain.retrievers.SVMRetriever attribute)
TextSplitter (class in langchain.text_splitter)
tfidf_array (langchain.retrievers.TFIDFRetriever attribute)
time (langchain.utilities.DuckDuckGoSearchAPIWrapper attribute)
to_typescript() (langchain.tools.APIOperation method)
token (langchain.llms.PredictionGuard attribute)
(langchain.utilities.PowerBIDataset attribute)
token_path (langchain.document_loaders.GoogleApiClient attribute)
(langchain.document_loaders.GoogleDriveLoader attribute)
Tokenizer (class in langchain.text_splitter)
tokenizer (langchain.llms.Petals attribute)
tokens (langchain.llms.AlephAlpha attribute)
tokens_path (langchain.llms.RWKV attribute)
tokens_per_chunk (langchain.text_splitter.Tokenizer attribute)
TokenTextSplitter (class in langchain.text_splitter)
ToMarkdownLoader (class in langchain.document_loaders)
TomlLoader (class in langchain.document_loaders)
tool() (in module langchain.agents) |
fd64ad4ca6da-91 | https://python.langchain.com/en/latest/genindex.html | tool() (in module langchain.agents)
(in module langchain.tools)
tool_run_logging_kwargs() (langchain.agents.Agent method)
(langchain.agents.BaseMultiActionAgent method)
(langchain.agents.BaseSingleActionAgent method)
(langchain.agents.LLMSingleActionAgent method)
tools (langchain.agents.agent_toolkits.JiraToolkit attribute)
(langchain.agents.agent_toolkits.ZapierToolkit attribute)
(langchain.agents.AgentExecutor attribute)
top_k (langchain.chains.SQLDatabaseChain attribute)
(langchain.chat_models.ChatGooglePalm attribute)
(langchain.llms.AlephAlpha attribute)
(langchain.llms.Anthropic attribute)
(langchain.llms.ForefrontAI attribute)
(langchain.llms.GooglePalm attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.LlamaCpp attribute)
(langchain.llms.NLPCloud attribute)
(langchain.llms.Petals attribute)
(langchain.llms.VertexAI attribute)
(langchain.retrievers.ChatGPTPluginRetriever attribute)
(langchain.retrievers.DataberryRetriever attribute)
(langchain.retrievers.PineconeHybridSearchRetriever attribute)
top_k_docs_for_context (langchain.chains.ChatVectorDBChain attribute)
top_k_results (langchain.utilities.ArxivAPIWrapper attribute)
(langchain.utilities.GooglePlacesAPIWrapper attribute)
(langchain.utilities.PubMedAPIWrapper attribute)
(langchain.utilities.WikipediaAPIWrapper attribute)
top_n (langchain.retrievers.document_compressors.CohereRerank attribute)
top_p (langchain.chat_models.ChatGooglePalm attribute)
(langchain.llms.AlephAlpha attribute)
(langchain.llms.Anthropic attribute)
(langchain.llms.AzureOpenAI attribute) |
fd64ad4ca6da-92 | https://python.langchain.com/en/latest/genindex.html | (langchain.llms.Anthropic attribute)
(langchain.llms.AzureOpenAI attribute)
(langchain.llms.ForefrontAI attribute)
(langchain.llms.GooglePalm attribute)
(langchain.llms.GooseAI attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.LlamaCpp attribute)
(langchain.llms.NLPCloud attribute)
(langchain.llms.OpenAI attribute)
(langchain.llms.OpenLM attribute)
(langchain.llms.Petals attribute)
(langchain.llms.RWKV attribute)
(langchain.llms.VertexAI attribute)
(langchain.llms.Writer attribute)
topP (langchain.llms.AI21 attribute)
traits (langchain.experimental.GenerativeAgent attribute)
transform (langchain.chains.TransformChain attribute)
transform_documents() (langchain.document_transformers.EmbeddingsRedundantFilter method)
(langchain.text_splitter.TextSplitter method)
transform_input_fn (langchain.llms.Databricks attribute)
transform_output_fn (langchain.llms.Databricks attribute)
transformers (langchain.retrievers.document_compressors.DocumentCompressorPipeline attribute)
TrelloLoader (class in langchain.document_loaders)
truncate (langchain.embeddings.CohereEmbeddings attribute)
(langchain.llms.Cohere attribute)
ts_type_from_python() (langchain.tools.APIOperation static method)
ttl (langchain.memory.RedisEntityStore attribute)
tuned_model_name (langchain.llms.VertexAI attribute)
TwitterTweetLoader (class in langchain.document_loaders)
type (langchain.utilities.GoogleSerperAPIWrapper attribute)
Typesense (class in langchain.vectorstores)
U
unsecure (langchain.utilities.searx_search.SearxSearchWrapper attribute)
(langchain.utilities.SearxSearchWrapper attribute) |
fd64ad4ca6da-93 | https://python.langchain.com/en/latest/genindex.html | (langchain.utilities.SearxSearchWrapper attribute)
UnstructuredAPIFileIOLoader (class in langchain.document_loaders)
UnstructuredAPIFileLoader (class in langchain.document_loaders)
UnstructuredEmailLoader (class in langchain.document_loaders)
UnstructuredEPubLoader (class in langchain.document_loaders)
UnstructuredExcelLoader (class in langchain.document_loaders)
UnstructuredFileIOLoader (class in langchain.document_loaders)
UnstructuredFileLoader (class in langchain.document_loaders)
UnstructuredHTMLLoader (class in langchain.document_loaders)
UnstructuredImageLoader (class in langchain.document_loaders)
UnstructuredMarkdownLoader (class in langchain.document_loaders)
UnstructuredODTLoader (class in langchain.document_loaders)
UnstructuredPDFLoader (class in langchain.document_loaders)
UnstructuredPowerPointLoader (class in langchain.document_loaders)
UnstructuredRTFLoader (class in langchain.document_loaders)
UnstructuredURLLoader (class in langchain.document_loaders)
UnstructuredWordDocumentLoader (class in langchain.document_loaders)
update_document() (langchain.vectorstores.Chroma method)
update_forward_refs() (langchain.llms.AI21 class method)
(langchain.llms.AlephAlpha class method)
(langchain.llms.Anthropic class method)
(langchain.llms.Anyscale class method)
(langchain.llms.AzureOpenAI class method)
(langchain.llms.Banana class method)
(langchain.llms.Beam class method)
(langchain.llms.Bedrock class method)
(langchain.llms.CerebriumAI class method)
(langchain.llms.Cohere class method)
(langchain.llms.CTransformers class method)
(langchain.llms.Databricks class method) |
fd64ad4ca6da-94 | https://python.langchain.com/en/latest/genindex.html | (langchain.llms.Databricks class method)
(langchain.llms.DeepInfra class method)
(langchain.llms.FakeListLLM class method)
(langchain.llms.ForefrontAI class method)
(langchain.llms.GooglePalm class method)
(langchain.llms.GooseAI class method)
(langchain.llms.GPT4All class method)
(langchain.llms.HuggingFaceEndpoint class method)
(langchain.llms.HuggingFaceHub class method)
(langchain.llms.HuggingFacePipeline class method)
(langchain.llms.HuggingFaceTextGenInference class method)
(langchain.llms.HumanInputLLM class method)
(langchain.llms.LlamaCpp class method)
(langchain.llms.Modal class method)
(langchain.llms.MosaicML class method)
(langchain.llms.NLPCloud class method)
(langchain.llms.OpenAI class method)
(langchain.llms.OpenAIChat class method)
(langchain.llms.OpenLM class method)
(langchain.llms.Petals class method)
(langchain.llms.PipelineAI class method)
(langchain.llms.PredictionGuard class method)
(langchain.llms.PromptLayerOpenAI class method)
(langchain.llms.PromptLayerOpenAIChat class method)
(langchain.llms.Replicate class method)
(langchain.llms.RWKV class method)
(langchain.llms.SagemakerEndpoint class method)
(langchain.llms.SelfHostedHuggingFaceLLM class method)
(langchain.llms.SelfHostedPipeline class method)
(langchain.llms.StochasticAI class method)
(langchain.llms.VertexAI class method)
(langchain.llms.Writer class method)
upsert_messages() (langchain.memory.CosmosDBChatMessageHistory method) |
fd64ad4ca6da-95 | https://python.langchain.com/en/latest/genindex.html | upsert_messages() (langchain.memory.CosmosDBChatMessageHistory method)
url (langchain.document_loaders.GitHubIssuesLoader property)
(langchain.document_loaders.MathpixPDFLoader property)
(langchain.llms.Beam attribute)
(langchain.retrievers.ChatGPTPluginRetriever attribute)
(langchain.retrievers.RemoteLangChainRetriever attribute)
(langchain.tools.IFTTTWebhook attribute)
urls (langchain.document_loaders.PlaywrightURLLoader attribute)
(langchain.document_loaders.SeleniumURLLoader attribute)
use_mlock (langchain.embeddings.LlamaCppEmbeddings attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.LlamaCpp attribute)
use_mmap (langchain.llms.LlamaCpp attribute)
use_multiplicative_presence_penalty (langchain.llms.AlephAlpha attribute)
use_query_checker (langchain.chains.SQLDatabaseChain attribute)
username (langchain.vectorstores.MyScaleSettings attribute)
V
validate_channel_or_videoIds_is_set() (langchain.document_loaders.GoogleApiClient class method)
(langchain.document_loaders.GoogleApiYoutubeLoader class method)
validate_init_args() (langchain.document_loaders.ConfluenceLoader static method)
validate_template (langchain.prompts.FewShotPromptTemplate attribute)
(langchain.prompts.FewShotPromptWithTemplates attribute)
(langchain.prompts.PromptTemplate attribute)
Vectara (class in langchain.vectorstores)
vectorizer (langchain.retrievers.TFIDFRetriever attribute)
VectorStore (class in langchain.vectorstores)
vectorstore (langchain.agents.agent_toolkits.VectorStoreInfo attribute)
(langchain.chains.ChatVectorDBChain attribute)
(langchain.chains.VectorDBQA attribute)
(langchain.chains.VectorDBQAWithSourcesChain attribute) |
fd64ad4ca6da-96 | https://python.langchain.com/en/latest/genindex.html | (langchain.chains.VectorDBQAWithSourcesChain attribute)
(langchain.prompts.example_selector.SemanticSimilarityExampleSelector attribute)
(langchain.retrievers.SelfQueryRetriever attribute)
(langchain.retrievers.TimeWeightedVectorStoreRetriever attribute)
vectorstore_info (langchain.agents.agent_toolkits.VectorStoreToolkit attribute)
vectorstores (langchain.agents.agent_toolkits.VectorStoreRouterToolkit attribute)
verbose (langchain.llms.AI21 attribute)
(langchain.llms.AlephAlpha attribute)
(langchain.llms.Anthropic attribute)
(langchain.llms.Anyscale attribute)
(langchain.llms.AzureOpenAI attribute)
(langchain.llms.Banana attribute)
(langchain.llms.Beam attribute)
(langchain.llms.Bedrock attribute)
(langchain.llms.CerebriumAI attribute)
(langchain.llms.Cohere attribute)
(langchain.llms.CTransformers attribute)
(langchain.llms.Databricks attribute)
(langchain.llms.DeepInfra attribute)
(langchain.llms.FakeListLLM attribute)
(langchain.llms.ForefrontAI attribute)
(langchain.llms.GooglePalm attribute)
(langchain.llms.GooseAI attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.HuggingFaceEndpoint attribute)
(langchain.llms.HuggingFaceHub attribute)
(langchain.llms.HuggingFacePipeline attribute)
(langchain.llms.HuggingFaceTextGenInference attribute)
(langchain.llms.HumanInputLLM attribute)
(langchain.llms.LlamaCpp attribute)
(langchain.llms.Modal attribute)
(langchain.llms.MosaicML attribute)
(langchain.llms.NLPCloud attribute)
(langchain.llms.OpenAI attribute)
(langchain.llms.OpenAIChat attribute) |
fd64ad4ca6da-97 | https://python.langchain.com/en/latest/genindex.html | (langchain.llms.OpenAI attribute)
(langchain.llms.OpenAIChat attribute)
(langchain.llms.OpenLM attribute)
(langchain.llms.Petals attribute)
(langchain.llms.PipelineAI attribute)
(langchain.llms.PredictionGuard attribute)
(langchain.llms.Replicate attribute)
(langchain.llms.RWKV attribute)
(langchain.llms.SagemakerEndpoint attribute)
(langchain.llms.SelfHostedHuggingFaceLLM attribute)
(langchain.llms.SelfHostedPipeline attribute)
(langchain.llms.StochasticAI attribute)
(langchain.llms.VertexAI attribute)
(langchain.llms.Writer attribute)
(langchain.retrievers.SelfQueryRetriever attribute)
(langchain.tools.BaseTool attribute)
(langchain.tools.Tool attribute)
VespaRetriever (class in langchain.retrievers)
video_ids (langchain.document_loaders.GoogleApiYoutubeLoader attribute)
visible_only (langchain.tools.ClickTool attribute)
vocab_only (langchain.embeddings.LlamaCppEmbeddings attribute)
(langchain.llms.GPT4All attribute)
(langchain.llms.LlamaCpp attribute)
W
wait_for_processing() (langchain.document_loaders.MathpixPDFLoader method)
WeatherDataLoader (class in langchain.document_loaders)
Weaviate (class in langchain.vectorstores)
WeaviateHybridSearchRetriever (class in langchain.retrievers)
WeaviateHybridSearchRetriever.Config (class in langchain.retrievers)
web_path (langchain.document_loaders.WebBaseLoader property)
web_paths (langchain.document_loaders.WebBaseLoader attribute)
WebBaseLoader (class in langchain.document_loaders)
WhatsAppChatLoader (class in langchain.document_loaders)
Wikipedia (class in langchain.docstore) |
fd64ad4ca6da-98 | https://python.langchain.com/en/latest/genindex.html | Wikipedia (class in langchain.docstore)
WikipediaLoader (class in langchain.document_loaders)
wolfram_alpha_appid (langchain.utilities.WolframAlphaAPIWrapper attribute)
writer_api_key (langchain.llms.Writer attribute)
writer_org_id (langchain.llms.Writer attribute)
Y
YoutubeLoader (class in langchain.document_loaders)
Z
zapier_description (langchain.tools.ZapierNLARunAction attribute)
ZepRetriever (class in langchain.retrievers)
ZERO_SHOT_REACT_DESCRIPTION (langchain.agents.AgentType attribute)
Zilliz (class in langchain.vectorstores)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
5dc26d810d6e-0 | https://python.langchain.com/en/latest/search.html | Search
Error
Please activate JavaScript to enable the search functionality.
Ctrl+K
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
7aa753670c4b-0 | https://python.langchain.com/en/latest/ecosystem/deployments.html | .md
.pdf
Deployments
Contents
Streamlit
Gradio (on Hugging Face)
Chainlit
Beam
Vercel
FastAPI + Vercel
Kinsta
Fly.io
Digitalocean App Platform
Google Cloud Run
SteamShip
Langchain-serve
BentoML
Databutton
Deployments#
So, you’ve created a really cool chain - now what? How do you deploy it and make it easily shareable with the world?
This section covers several options for that. Note that these options are meant for quick deployment of prototypes and demos, not for production systems. If you need help with the deployment of a production system, please contact us directly.
What follows is a list of template GitHub repositories designed to be easily forked and modified to use your chain. This list is far from exhaustive, and we are EXTREMELY open to contributions here.
Streamlit#
This repo serves as a template for how to deploy a LangChain with Streamlit.
It implements a chatbot interface.
It also contains instructions for how to deploy this app on the Streamlit platform.
Gradio (on Hugging Face)#
This repo serves as a template for how deploy a LangChain with Gradio.
It implements a chatbot interface, with a “Bring-Your-Own-Token” approach (nice for not wracking up big bills).
It also contains instructions for how to deploy this app on the Hugging Face platform.
This is heavily influenced by James Weaver’s excellent examples.
Chainlit#
This repo is a cookbook explaining how to visualize and deploy LangChain agents with Chainlit.
You create ChatGPT-like UIs with Chainlit. Some of the key features include intermediary steps visualisation, element management & display (images, text, carousel, etc.) as well as cloud deployment.
Chainlit doc on the integration with LangChain
Beam# |
7aa753670c4b-1 | https://python.langchain.com/en/latest/ecosystem/deployments.html | Chainlit doc on the integration with LangChain
Beam#
This repo serves as a template for how deploy a LangChain with Beam.
It implements a Question Answering app and contains instructions for deploying the app as a serverless REST API.
Vercel#
A minimal example on how to run LangChain on Vercel using Flask.
FastAPI + Vercel#
A minimal example on how to run LangChain on Vercel using FastAPI and LangCorn/Uvicorn.
Kinsta#
A minimal example on how to deploy LangChain to Kinsta using Flask.
Fly.io#
A minimal example of how to deploy LangChain to Fly.io using Flask.
Digitalocean App Platform#
A minimal example on how to deploy LangChain to DigitalOcean App Platform.
Google Cloud Run#
A minimal example on how to deploy LangChain to Google Cloud Run.
SteamShip#
This repository contains LangChain adapters for Steamship, enabling LangChain developers to rapidly deploy their apps on Steamship. This includes: production-ready endpoints, horizontal scaling across dependencies, persistent storage of app state, multi-tenancy support, etc.
Langchain-serve#
This repository allows users to serve local chains and agents as RESTful, gRPC, or WebSocket APIs, thanks to Jina. Deploy your chains & agents with ease and enjoy independent scaling, serverless and autoscaling APIs, as well as a Streamlit playground on Jina AI Cloud.
BentoML#
This repository provides an example of how to deploy a LangChain application with BentoML. BentoML is a framework that enables the containerization of machine learning applications as standard OCI images. BentoML also allows for the automatic generation of OpenAPI and gRPC endpoints. With BentoML, you can integrate models from all popular ML frameworks and deploy them as microservices running on the most optimal hardware and scaling independently. |
7aa753670c4b-2 | https://python.langchain.com/en/latest/ecosystem/deployments.html | Databutton#
These templates serve as examples of how to build, deploy, and share LangChain applications using Databutton. You can create user interfaces with Streamlit, automate tasks by scheduling Python code, and store files and data in the built-in store. Examples include a Chatbot interface with conversational memory, a Personal search engine, and a starter template for LangChain apps. Deploying and sharing is just one click away.
previous
Dependents
next
Tracing
Contents
Streamlit
Gradio (on Hugging Face)
Chainlit
Beam
Vercel
FastAPI + Vercel
Kinsta
Fly.io
Digitalocean App Platform
Google Cloud Run
SteamShip
Langchain-serve
BentoML
Databutton
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
8879f0b23649-0 | https://python.langchain.com/en/latest/tracing/local_installation.html | .md
.pdf
Locally Hosted Setup
Contents
Installation
Environment Setup
Locally Hosted Setup#
This page contains instructions for installing and then setting up the environment to use the locally hosted version of tracing.
Installation#
Ensure you have Docker installed (see Get Docker) and that it’s running.
Install the latest version of langchain: pip install langchain or pip install langchain -U to upgrade your
existing version.
Run langchain-server. This command was installed automatically when you ran the above command (pip install langchain).
This will spin up the server in the terminal, hosted on port 4137 by default.
Once you see the terminal
output langchain-langchain-frontend-1 | ➜ Local: [http://localhost:4173/](http://localhost:4173/), navigate
to http://localhost:4173/
You should see a page with your tracing sessions. See the overview page for a walkthrough of the UI.
Currently, trace data is not guaranteed to be persisted between runs of langchain-server. If you want to
persist your data, you can mount a volume to the Docker container. See the Docker docs for more info.
To stop the server, press Ctrl+C in the terminal where you ran langchain-server.
Environment Setup#
After installation, you must now set up your environment to use tracing.
This can be done by setting an environment variable in your terminal by running export LANGCHAIN_HANDLER=langchain.
You can also do this by adding the below snippet to the top of every script. IMPORTANT: this must go at the VERY TOP of your script, before you import anything from langchain.
import os
os.environ["LANGCHAIN_HANDLER"] = "langchain"
Contents
Installation
Environment Setup
By Harrison Chase
© Copyright 2023, Harrison Chase. |
8879f0b23649-1 | https://python.langchain.com/en/latest/tracing/local_installation.html | By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
93a53c7b2e16-0 | https://python.langchain.com/en/latest/tracing/hosted_installation.html | .md
.pdf
Cloud Hosted Setup
Contents
Installation
Environment Setup
Cloud Hosted Setup#
We offer a hosted version of tracing at langchainplus.vercel.app. You can use this to view traces from your run without having to run the server locally.
Note: we are currently only offering this to a limited number of users. The hosted platform is VERY alpha, in active development, and data might be dropped at any time. Don’t depend on data being persisted in the system long term and don’t log traces that may contain sensitive information. If you’re interested in using the hosted platform, please fill out the form here.
Installation#
Login to the system and click “API Key” in the top right corner. Generate a new key and keep it safe. You will need it to authenticate with the system.
Environment Setup#
After installation, you must now set up your environment to use tracing.
This can be done by setting an environment variable in your terminal by running export LANGCHAIN_HANDLER=langchain.
You can also do this by adding the below snippet to the top of every script. IMPORTANT: this must go at the VERY TOP of your script, before you import anything from langchain.
import os
os.environ["LANGCHAIN_HANDLER"] = "langchain"
You will also need to set an environment variable to specify the endpoint and your API key. This can be done with the following environment variables:
LANGCHAIN_ENDPOINT = “https://langchain-api-gateway-57eoxz8z.uc.gateway.dev”
LANGCHAIN_API_KEY - set this to the API key you generated during installation.
An example of adding all relevant environment variables is below:
import os
os.environ["LANGCHAIN_HANDLER"] = "langchain"
os.environ["LANGCHAIN_ENDPOINT"] = "https://langchain-api-gateway-57eoxz8z.uc.gateway.dev" |
93a53c7b2e16-1 | https://python.langchain.com/en/latest/tracing/hosted_installation.html | os.environ["LANGCHAIN_API_KEY"] = "my_api_key" # Don't commit this to your repo! Better to set it in your terminal.
Contents
Installation
Environment Setup
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
0631012d5d10-0 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | .ipynb
.pdf
Tracing Walkthrough
Contents
[Beta] Tracing V2
Tracing Walkthrough#
There are two recommended ways to trace your LangChains:
Setting the LANGCHAIN_TRACING environment variable to “true”.
Using a context manager with tracing_enabled() to trace a particular block of code.
Note if the environment variable is set, all code will be traced, regardless of whether or not it’s within the context manager.
import os
os.environ["LANGCHAIN_TRACING"] = "true"
## Uncomment below if using hosted setup.
# os.environ["LANGCHAIN_ENDPOINT"] = "https://langchain-api-gateway-57eoxz8z.uc.gateway.dev"
## Uncomment below if you want traces to be recorded to "my_session" instead of "default".
# os.environ["LANGCHAIN_SESSION"] = "my_session"
## Better to set this environment variable in the terminal
## Uncomment below if using hosted version. Replace "my_api_key" with your actual API Key.
# os.environ["LANGCHAIN_API_KEY"] = "my_api_key"
import langchain
from langchain.agents import Tool, initialize_agent, load_tools
from langchain.agents import AgentType
from langchain.callbacks import tracing_enabled
from langchain.chat_models import ChatOpenAI
from langchain.llms import OpenAI
# Agent run with tracing. Ensure that OPENAI_API_KEY is set appropriately to run this example.
llm = OpenAI(temperature=0)
tools = load_tools(["llm-math"], llm=llm)
agent = initialize_agent(
tools, llm, agent=AgentType.ZERO_SHOT_REACT_DESCRIPTION, verbose=True
)
agent.run("What is 2 raised to .123243 power?")
> Entering new AgentExecutor chain... |
0631012d5d10-1 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | > Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 2^.123243
Observation: Answer: 1.0891804557407723
Thought: I now know the final answer.
Final Answer: 1.0891804557407723
> Finished chain.
'1.0891804557407723'
# Agent run with tracing using a chat model
agent = initialize_agent(
tools, ChatOpenAI(temperature=0), agent=AgentType.ZERO_SHOT_REACT_DESCRIPTION, verbose=True
)
agent.run("What is 2 raised to .123243 power?")
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 2 ^ .123243
Observation: Answer: 1.0891804557407723
Thought:I now know the answer to the question.
Final Answer: 1.0891804557407723
> Finished chain.
'1.0891804557407723'
# Both of the agent runs will be traced because the environment variable is set
agent.run("What is 2 raised to .123243 power?")
with tracing_enabled() as session:
agent.run("What is 5 raised to .123243 power?")
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 2 ^ .123243
Observation: Answer: 1.0891804557407723
Thought:I now know the answer to the question.
Final Answer: 1.0891804557407723
> Finished chain.
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator |
0631012d5d10-2 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | I need to use a calculator to solve this.
Action: Calculator
Action Input: 5 ^ .123243
Observation: Answer: 1.2193914912400514
Thought:I now know the answer to the question.
Final Answer: 1.2193914912400514
> Finished chain.
# Now, we unset the environment variable and use a context manager.
if "LANGCHAIN_TRACING" in os.environ:
del os.environ["LANGCHAIN_TRACING"]
# here, we are writing traces to "my_test_session"
with tracing_enabled("my_session") as session:
assert session
agent.run("What is 5 raised to .123243 power?") # this should be traced
agent.run("What is 2 raised to .123243 power?") # this should not be traced
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 5 ^ .123243
Observation: Answer: 1.2193914912400514
Thought:I now know the answer to the question.
Final Answer: 1.2193914912400514
> Finished chain.
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 2 ^ .123243
Observation: Answer: 1.0891804557407723
Thought:I now know the answer to the question.
Final Answer: 1.0891804557407723
> Finished chain.
'1.0891804557407723'
# The context manager is concurrency safe:
import asyncio
if "LANGCHAIN_TRACING" in os.environ:
del os.environ["LANGCHAIN_TRACING"] |
0631012d5d10-3 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | del os.environ["LANGCHAIN_TRACING"]
questions = [f"What is {i} raised to .123 power?" for i in range(1,4)]
# start a background task
task = asyncio.create_task(agent.arun(questions[0])) # this should not be traced
with tracing_enabled() as session:
assert session
tasks = [agent.arun(q) for q in questions[1:3]] # these should be traced
await asyncio.gather(*tasks)
await task
> Entering new AgentExecutor chain...
> Entering new AgentExecutor chain...
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 3^0.123I need to use a calculator to solve this.
Action: Calculator
Action Input: 2^0.123Any number raised to the power of 0 is 1, but I'm not sure about a decimal power.
Action: Calculator
Action Input: 1^.123
Observation: Answer: 1.1446847956963533
Thought:
Observation: Answer: 1.0889970153361064
Thought:
Observation: Answer: 1.0
Thought:
> Finished chain.
> Finished chain.
> Finished chain.
'1.0'
[Beta] Tracing V2#
We are rolling out a newer version of our tracing service with more features coming soon. Here are the instructions on how to use it to trace your runs.
To use, you can use the tracing_v2_enabled context manager or set LANGCHAIN_TRACING_V2 = 'true'
Option 1 (Local):
Run the local LangChainPlus Server
pip install --upgrade langchain
langchain plus start
Option 2 (Hosted): |
0631012d5d10-4 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | pip install --upgrade langchain
langchain plus start
Option 2 (Hosted):
After making an account an grabbing a LangChainPlus API Key, set the LANGCHAIN_ENDPOINT and LANGCHAIN_API_KEY environment variables
import os
os.environ["LANGCHAIN_TRACING_V2"] = "true"
# os.environ["LANGCHAIN_ENDPOINT"] = "https://api.langchain.plus" # Uncomment this line if you want to use the hosted version
# os.environ["LANGCHAIN_API_KEY"] = "<YOUR-LANGCHAINPLUS-API-KEY>" # Uncomment this line if you want to use the hosted version.
import langchain
from langchain.agents import Tool, initialize_agent, load_tools
from langchain.agents import AgentType
from langchain.callbacks import tracing_enabled
from langchain.chat_models import ChatOpenAI
from langchain.llms import OpenAI
# Agent run with tracing. Ensure that OPENAI_API_KEY is set appropriately to run this example.
llm = OpenAI(temperature=0)
tools = load_tools(["llm-math"], llm=llm)
agent = initialize_agent(
tools, llm, agent=AgentType.ZERO_SHOT_REACT_DESCRIPTION, verbose=True
)
agent.run("What is 2 raised to .123243 power?")
> Entering new AgentExecutor chain...
I need to use a calculator to solve this.
Action: Calculator
Action Input: 2^.123243
Observation: Answer: 1.0891804557407723
Thought: I now know the final answer.
Final Answer: 1.0891804557407723
> Finished chain.
'1.0891804557407723'
Contents
[Beta] Tracing V2
By Harrison Chase
© Copyright 2023, Harrison Chase. |
0631012d5d10-5 | https://python.langchain.com/en/latest/tracing/agent_with_tracing.html | By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
05fd08cbf7bf-0 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | Source code for langchain.text_splitter
"""Functionality for splitting text."""
from __future__ import annotations
import copy
import logging
import re
from abc import ABC, abstractmethod
from dataclasses import dataclass
from enum import Enum
from typing import (
AbstractSet,
Any,
Callable,
Collection,
Iterable,
List,
Literal,
Optional,
Sequence,
Type,
TypeVar,
Union,
)
from langchain.docstore.document import Document
from langchain.schema import BaseDocumentTransformer
logger = logging.getLogger(__name__)
TS = TypeVar("TS", bound="TextSplitter")
def _split_text(text: str, separator: str, keep_separator: bool) -> List[str]:
# Now that we have the separator, split the text
if separator:
if keep_separator:
# The parentheses in the pattern keep the delimiters in the result.
_splits = re.split(f"({separator})", text)
splits = [_splits[i] + _splits[i + 1] for i in range(1, len(_splits), 2)]
if len(_splits) % 2 == 0:
splits += _splits[-1:]
splits = [_splits[0]] + splits
else:
splits = text.split(separator)
else:
splits = list(text)
return [s for s in splits if s != ""]
[docs]class TextSplitter(BaseDocumentTransformer, ABC):
"""Interface for splitting text into chunks."""
def __init__(
self,
chunk_size: int = 4000,
chunk_overlap: int = 200, |
05fd08cbf7bf-1 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | chunk_overlap: int = 200,
length_function: Callable[[str], int] = len,
keep_separator: bool = False,
):
"""Create a new TextSplitter.
Args:
chunk_size: Maximum size of chunks to return
chunk_overlap: Overlap in characters between chunks
length_function: Function that measures the length of given chunks
keep_separator: Whether or not to keep the separator in the chunks
"""
if chunk_overlap > chunk_size:
raise ValueError(
f"Got a larger chunk overlap ({chunk_overlap}) than chunk size "
f"({chunk_size}), should be smaller."
)
self._chunk_size = chunk_size
self._chunk_overlap = chunk_overlap
self._length_function = length_function
self._keep_separator = keep_separator
[docs] @abstractmethod
def split_text(self, text: str) -> List[str]:
"""Split text into multiple components."""
[docs] def create_documents(
self, texts: List[str], metadatas: Optional[List[dict]] = None
) -> List[Document]:
"""Create documents from a list of texts."""
_metadatas = metadatas or [{}] * len(texts)
documents = []
for i, text in enumerate(texts):
for chunk in self.split_text(text):
new_doc = Document(
page_content=chunk, metadata=copy.deepcopy(_metadatas[i])
)
documents.append(new_doc)
return documents
[docs] def split_documents(self, documents: Iterable[Document]) -> List[Document]:
"""Split documents."""
texts, metadatas = [], []
for doc in documents:
texts.append(doc.page_content) |
05fd08cbf7bf-2 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | for doc in documents:
texts.append(doc.page_content)
metadatas.append(doc.metadata)
return self.create_documents(texts, metadatas=metadatas)
def _join_docs(self, docs: List[str], separator: str) -> Optional[str]:
text = separator.join(docs)
text = text.strip()
if text == "":
return None
else:
return text
def _merge_splits(self, splits: Iterable[str], separator: str) -> List[str]:
# We now want to combine these smaller pieces into medium size
# chunks to send to the LLM.
separator_len = self._length_function(separator)
docs = []
current_doc: List[str] = []
total = 0
for d in splits:
_len = self._length_function(d)
if (
total + _len + (separator_len if len(current_doc) > 0 else 0)
> self._chunk_size
):
if total > self._chunk_size:
logger.warning(
f"Created a chunk of size {total}, "
f"which is longer than the specified {self._chunk_size}"
)
if len(current_doc) > 0:
doc = self._join_docs(current_doc, separator)
if doc is not None:
docs.append(doc)
# Keep on popping if:
# - we have a larger chunk than in the chunk overlap
# - or if we still have any chunks and the length is long
while total > self._chunk_overlap or (
total + _len + (separator_len if len(current_doc) > 0 else 0)
> self._chunk_size
and total > 0 |
05fd08cbf7bf-3 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | > self._chunk_size
and total > 0
):
total -= self._length_function(current_doc[0]) + (
separator_len if len(current_doc) > 1 else 0
)
current_doc = current_doc[1:]
current_doc.append(d)
total += _len + (separator_len if len(current_doc) > 1 else 0)
doc = self._join_docs(current_doc, separator)
if doc is not None:
docs.append(doc)
return docs
[docs] @classmethod
def from_huggingface_tokenizer(cls, tokenizer: Any, **kwargs: Any) -> TextSplitter:
"""Text splitter that uses HuggingFace tokenizer to count length."""
try:
from transformers import PreTrainedTokenizerBase
if not isinstance(tokenizer, PreTrainedTokenizerBase):
raise ValueError(
"Tokenizer received was not an instance of PreTrainedTokenizerBase"
)
def _huggingface_tokenizer_length(text: str) -> int:
return len(tokenizer.encode(text))
except ImportError:
raise ValueError(
"Could not import transformers python package. "
"Please install it with `pip install transformers`."
)
return cls(length_function=_huggingface_tokenizer_length, **kwargs)
[docs] @classmethod
def from_tiktoken_encoder(
cls: Type[TS],
encoding_name: str = "gpt2",
model_name: Optional[str] = None,
allowed_special: Union[Literal["all"], AbstractSet[str]] = set(),
disallowed_special: Union[Literal["all"], Collection[str]] = "all",
**kwargs: Any,
) -> TS: |
05fd08cbf7bf-4 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | **kwargs: Any,
) -> TS:
"""Text splitter that uses tiktoken encoder to count length."""
try:
import tiktoken
except ImportError:
raise ImportError(
"Could not import tiktoken python package. "
"This is needed in order to calculate max_tokens_for_prompt. "
"Please install it with `pip install tiktoken`."
)
if model_name is not None:
enc = tiktoken.encoding_for_model(model_name)
else:
enc = tiktoken.get_encoding(encoding_name)
def _tiktoken_encoder(text: str) -> int:
return len(
enc.encode(
text,
allowed_special=allowed_special,
disallowed_special=disallowed_special,
)
)
if issubclass(cls, TokenTextSplitter):
extra_kwargs = {
"encoding_name": encoding_name,
"model_name": model_name,
"allowed_special": allowed_special,
"disallowed_special": disallowed_special,
}
kwargs = {**kwargs, **extra_kwargs}
return cls(length_function=_tiktoken_encoder, **kwargs)
[docs] def transform_documents(
self, documents: Sequence[Document], **kwargs: Any
) -> Sequence[Document]:
"""Transform sequence of documents by splitting them."""
return self.split_documents(list(documents))
[docs] async def atransform_documents(
self, documents: Sequence[Document], **kwargs: Any
) -> Sequence[Document]:
"""Asynchronously transform a sequence of documents by splitting them."""
raise NotImplementedError
[docs]class CharacterTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at characters.""" |
05fd08cbf7bf-5 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | """Implementation of splitting text that looks at characters."""
def __init__(self, separator: str = "\n\n", **kwargs: Any):
"""Create a new TextSplitter."""
super().__init__(**kwargs)
self._separator = separator
[docs] def split_text(self, text: str) -> List[str]:
"""Split incoming text and return chunks."""
# First we naively split the large input into a bunch of smaller ones.
splits = _split_text(text, self._separator, self._keep_separator)
_separator = "" if self._keep_separator else self._separator
return self._merge_splits(splits, _separator)
# should be in newer Python versions (3.10+)
# @dataclass(frozen=True, kw_only=True, slots=True)
[docs]@dataclass(frozen=True)
class Tokenizer:
chunk_overlap: int
tokens_per_chunk: int
decode: Callable[[list[int]], str]
encode: Callable[[str], List[int]]
[docs]def split_text_on_tokens(*, text: str, tokenizer: Tokenizer) -> List[str]:
"""Split incoming text and return chunks."""
splits = []
input_ids = tokenizer.encode(text)
start_idx = 0
cur_idx = min(start_idx + tokenizer.tokens_per_chunk, len(input_ids))
chunk_ids = input_ids[start_idx:cur_idx]
while start_idx < len(input_ids):
splits.append(tokenizer.decode(chunk_ids))
start_idx += tokenizer.tokens_per_chunk - tokenizer.chunk_overlap
cur_idx = min(start_idx + tokenizer.tokens_per_chunk, len(input_ids))
chunk_ids = input_ids[start_idx:cur_idx]
return splits
[docs]class TokenTextSplitter(TextSplitter): |
05fd08cbf7bf-6 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | return splits
[docs]class TokenTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at tokens."""
def __init__(
self,
encoding_name: str = "gpt2",
model_name: Optional[str] = None,
allowed_special: Union[Literal["all"], AbstractSet[str]] = set(),
disallowed_special: Union[Literal["all"], Collection[str]] = "all",
**kwargs: Any,
):
"""Create a new TextSplitter."""
super().__init__(**kwargs)
try:
import tiktoken
except ImportError:
raise ImportError(
"Could not import tiktoken python package. "
"This is needed in order to for TokenTextSplitter. "
"Please install it with `pip install tiktoken`."
)
if model_name is not None:
enc = tiktoken.encoding_for_model(model_name)
else:
enc = tiktoken.get_encoding(encoding_name)
self._tokenizer = enc
self._allowed_special = allowed_special
self._disallowed_special = disallowed_special
[docs] def split_text(self, text: str) -> List[str]:
def _encode(_text: str) -> List[int]:
return self._tokenizer.encode(
_text,
allowed_special=self._allowed_special,
disallowed_special=self._disallowed_special,
)
tokenizer = Tokenizer(
chunk_overlap=self._chunk_overlap,
tokens_per_chunk=self._chunk_size,
decode=self._tokenizer.decode,
encode=_encode,
)
return split_text_on_tokens(text=text, tokenizer=tokenizer)
[docs]class SentenceTransformersTokenTextSplitter(TextSplitter): |
05fd08cbf7bf-7 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | [docs]class SentenceTransformersTokenTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at tokens."""
def __init__(
self,
chunk_overlap: int = 50,
model_name: str = "sentence-transformers/all-mpnet-base-v2",
tokens_per_chunk: Optional[int] = None,
**kwargs: Any,
):
"""Create a new TextSplitter."""
super().__init__(**kwargs, chunk_overlap=chunk_overlap)
from transformers import AutoTokenizer
self.model_name = model_name
self.tokenizer = AutoTokenizer.from_pretrained(self.model_name)
self._initialize_chunk_configuration(tokens_per_chunk=tokens_per_chunk)
def _initialize_chunk_configuration(
self, *, tokens_per_chunk: Optional[int]
) -> None:
self.maximum_tokens_per_chunk = self.tokenizer.max_len_single_sentence
if tokens_per_chunk is None:
self.tokens_per_chunk = self.maximum_tokens_per_chunk
else:
self.tokens_per_chunk = tokens_per_chunk
if self.tokens_per_chunk > self.maximum_tokens_per_chunk:
raise ValueError(
f"The token limit of the models '{self.model_name}'"
f" is: {self.maximum_tokens_per_chunk}."
f" Argument tokens_per_chunk={self.tokens_per_chunk}"
f" > maximum token limit."
)
[docs] def split_text(self, text: str) -> List[str]:
def encode_strip_start_and_stop_token_ids(text: str) -> List[int]:
return self._encode(text)[1:-1]
tokenizer = Tokenizer(
chunk_overlap=self._chunk_overlap,
tokens_per_chunk=self.tokens_per_chunk,
decode=self.tokenizer.decode, |
05fd08cbf7bf-8 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | tokens_per_chunk=self.tokens_per_chunk,
decode=self.tokenizer.decode,
encode=encode_strip_start_and_stop_token_ids,
)
return split_text_on_tokens(text=text, tokenizer=tokenizer)
[docs] def count_tokens(self, *, text: str) -> int:
return len(self._encode(text))
_max_length_equal_32_bit_integer = 2**32
def _encode(self, text: str) -> List[int]:
token_ids_with_start_and_end_token_ids = self.tokenizer.encode(
text,
max_length=self._max_length_equal_32_bit_integer,
truncation="do_not_truncate",
)
return token_ids_with_start_and_end_token_ids
[docs]class Language(str, Enum):
CPP = "cpp"
GO = "go"
JAVA = "java"
JS = "js"
PHP = "php"
PROTO = "proto"
PYTHON = "python"
RST = "rst"
RUBY = "ruby"
RUST = "rust"
SCALA = "scala"
SWIFT = "swift"
MARKDOWN = "markdown"
LATEX = "latex"
HTML = "html"
[docs]class RecursiveCharacterTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at characters.
Recursively tries to split by different characters to find one
that works.
"""
def __init__(
self,
separators: Optional[List[str]] = None,
keep_separator: bool = True,
**kwargs: Any,
):
"""Create a new TextSplitter."""
super().__init__(keep_separator=keep_separator, **kwargs) |
05fd08cbf7bf-9 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | super().__init__(keep_separator=keep_separator, **kwargs)
self._separators = separators or ["\n\n", "\n", " ", ""]
def _split_text(self, text: str, separators: List[str]) -> List[str]:
"""Split incoming text and return chunks."""
final_chunks = []
# Get appropriate separator to use
separator = separators[-1]
new_separators = None
for i, _s in enumerate(separators):
if _s == "":
separator = _s
break
if _s in text:
separator = _s
new_separators = separators[i + 1 :]
break
splits = _split_text(text, separator, self._keep_separator)
# Now go merging things, recursively splitting longer texts.
_good_splits = []
_separator = "" if self._keep_separator else separator
for s in splits:
if self._length_function(s) < self._chunk_size:
_good_splits.append(s)
else:
if _good_splits:
merged_text = self._merge_splits(_good_splits, _separator)
final_chunks.extend(merged_text)
_good_splits = []
if new_separators is None:
final_chunks.append(s)
else:
other_info = self._split_text(s, new_separators)
final_chunks.extend(other_info)
if _good_splits:
merged_text = self._merge_splits(_good_splits, _separator)
final_chunks.extend(merged_text)
return final_chunks
[docs] def split_text(self, text: str) -> List[str]:
return self._split_text(text, self._separators) |
05fd08cbf7bf-10 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | return self._split_text(text, self._separators)
[docs] @classmethod
def from_language(
cls, language: Language, **kwargs: Any
) -> RecursiveCharacterTextSplitter:
separators = cls.get_separators_for_language(language)
return cls(separators=separators, **kwargs)
[docs] @staticmethod
def get_separators_for_language(language: Language) -> List[str]:
if language == Language.CPP:
return [
# Split along class definitions
"\nclass ",
# Split along function definitions
"\nvoid ",
"\nint ",
"\nfloat ",
"\ndouble ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nwhile ",
"\nswitch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.GO:
return [
# Split along function definitions
"\nfunc ",
"\nvar ",
"\nconst ",
"\ntype ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nswitch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.JAVA:
return [
# Split along class definitions
"\nclass ",
# Split along method definitions
"\npublic ",
"\nprotected ",
"\nprivate ",
"\nstatic ",
# Split along control flow statements |
05fd08cbf7bf-11 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | "\nprivate ",
"\nstatic ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nwhile ",
"\nswitch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.JS:
return [
# Split along function definitions
"\nfunction ",
"\nconst ",
"\nlet ",
"\nvar ",
"\nclass ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nwhile ",
"\nswitch ",
"\ncase ",
"\ndefault ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.PHP:
return [
# Split along function definitions
"\nfunction ",
# Split along class definitions
"\nclass ",
# Split along control flow statements
"\nif ",
"\nforeach ",
"\nwhile ",
"\ndo ",
"\nswitch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.PROTO:
return [
# Split along message definitions
"\nmessage ",
# Split along service definitions
"\nservice ",
# Split along enum definitions
"\nenum ",
# Split along option definitions
"\noption ",
# Split along import statements
"\nimport ", |
05fd08cbf7bf-12 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | "\noption ",
# Split along import statements
"\nimport ",
# Split along syntax declarations
"\nsyntax ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.PYTHON:
return [
# First, try to split along class definitions
"\nclass ",
"\ndef ",
"\n\tdef ",
# Now split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.RST:
return [
# Split along section titles
"\n===\n",
"\n---\n",
"\n***\n",
# Split along directive markers
"\n.. ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.RUBY:
return [
# Split along method definitions
"\ndef ",
"\nclass ",
# Split along control flow statements
"\nif ",
"\nunless ",
"\nwhile ",
"\nfor ",
"\ndo ",
"\nbegin ",
"\nrescue ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.RUST:
return [
# Split along function definitions
"\nfn ",
"\nconst ",
"\nlet ",
# Split along control flow statements
"\nif ",
"\nwhile ", |
05fd08cbf7bf-13 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | # Split along control flow statements
"\nif ",
"\nwhile ",
"\nfor ",
"\nloop ",
"\nmatch ",
"\nconst ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.SCALA:
return [
# Split along class definitions
"\nclass ",
"\nobject ",
# Split along method definitions
"\ndef ",
"\nval ",
"\nvar ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nwhile ",
"\nmatch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.SWIFT:
return [
# Split along function definitions
"\nfunc ",
# Split along class definitions
"\nclass ",
"\nstruct ",
"\nenum ",
# Split along control flow statements
"\nif ",
"\nfor ",
"\nwhile ",
"\ndo ",
"\nswitch ",
"\ncase ",
# Split by the normal type of lines
"\n\n",
"\n",
" ",
"",
]
elif language == Language.MARKDOWN:
return [
# First, try to split along Markdown headings (starting with level 2)
"\n## ",
"\n### ",
"\n#### ",
"\n##### ",
"\n###### ", |
05fd08cbf7bf-14 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | "\n#### ",
"\n##### ",
"\n###### ",
# Note the alternative syntax for headings (below) is not handled here
# Heading level 2
# ---------------
# End of code block
"```\n\n",
# Horizontal lines
"\n\n***\n\n",
"\n\n---\n\n",
"\n\n___\n\n",
# Note that this splitter doesn't handle horizontal lines defined
# by *three or more* of ***, ---, or ___, but this is not handled
"\n\n",
"\n",
" ",
"",
]
elif language == Language.LATEX:
return [
# First, try to split along Latex sections
"\n\\chapter{",
"\n\\section{",
"\n\\subsection{",
"\n\\subsubsection{",
# Now split by environments
"\n\\begin{enumerate}",
"\n\\begin{itemize}",
"\n\\begin{description}",
"\n\\begin{list}",
"\n\\begin{quote}",
"\n\\begin{quotation}",
"\n\\begin{verse}",
"\n\\begin{verbatim}",
## Now split by math environments
"\n\\begin{align}",
"$$",
"$",
# Now split by the normal type of lines
" ",
"",
]
elif language == Language.HTML:
return [
# First, try to split along HTML tags
"<body>",
"<div>",
"<p>",
"<br>",
"<li>",
"<h1>",
"<h2>", |
05fd08cbf7bf-15 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | "<li>",
"<h1>",
"<h2>",
"<h3>",
"<h4>",
"<h5>",
"<h6>",
"<span>",
"<table>",
"<tr>",
"<td>",
"<th>",
"<ul>",
"<ol>",
"<header>",
"<footer>",
"<nav>",
# Head
"<head>",
"<style>",
"<script>",
"<meta>",
"<title>",
"",
]
else:
raise ValueError(
f"Language {language} is not supported! "
f"Please choose from {list(Language)}"
)
[docs]class NLTKTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at sentences using NLTK."""
def __init__(self, separator: str = "\n\n", **kwargs: Any):
"""Initialize the NLTK splitter."""
super().__init__(**kwargs)
try:
from nltk.tokenize import sent_tokenize
self._tokenizer = sent_tokenize
except ImportError:
raise ImportError(
"NLTK is not installed, please install it with `pip install nltk`."
)
self._separator = separator
[docs] def split_text(self, text: str) -> List[str]:
"""Split incoming text and return chunks."""
# First we naively split the large input into a bunch of smaller ones.
splits = self._tokenizer(text)
return self._merge_splits(splits, self._separator)
[docs]class SpacyTextSplitter(TextSplitter):
"""Implementation of splitting text that looks at sentences using Spacy."""
def __init__( |
05fd08cbf7bf-16 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | def __init__(
self, separator: str = "\n\n", pipeline: str = "en_core_web_sm", **kwargs: Any
):
"""Initialize the spacy text splitter."""
super().__init__(**kwargs)
try:
import spacy
except ImportError:
raise ImportError(
"Spacy is not installed, please install it with `pip install spacy`."
)
self._tokenizer = spacy.load(pipeline)
self._separator = separator
[docs] def split_text(self, text: str) -> List[str]:
"""Split incoming text and return chunks."""
splits = (str(s) for s in self._tokenizer(text).sents)
return self._merge_splits(splits, self._separator)
# For backwards compatibility
[docs]class PythonCodeTextSplitter(RecursiveCharacterTextSplitter):
"""Attempts to split the text along Python syntax."""
def __init__(self, **kwargs: Any):
"""Initialize a PythonCodeTextSplitter."""
separators = self.get_separators_for_language(Language.PYTHON)
super().__init__(separators=separators, **kwargs)
[docs]class MarkdownTextSplitter(RecursiveCharacterTextSplitter):
"""Attempts to split the text along Markdown-formatted headings."""
def __init__(self, **kwargs: Any):
"""Initialize a MarkdownTextSplitter."""
separators = self.get_separators_for_language(Language.MARKDOWN)
super().__init__(separators=separators, **kwargs)
[docs]class LatexTextSplitter(RecursiveCharacterTextSplitter):
"""Attempts to split the text along Latex-formatted layout elements."""
def __init__(self, **kwargs: Any): |
05fd08cbf7bf-17 | https://python.langchain.com/en/latest/_modules/langchain/text_splitter.html | def __init__(self, **kwargs: Any):
"""Initialize a LatexTextSplitter."""
separators = self.get_separators_for_language(Language.LATEX)
super().__init__(separators=separators, **kwargs)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
23d755a4140d-0 | https://python.langchain.com/en/latest/_modules/langchain/requests.html | Source code for langchain.requests
"""Lightweight wrapper around requests library, with async support."""
from contextlib import asynccontextmanager
from typing import Any, AsyncGenerator, Dict, Optional
import aiohttp
import requests
from pydantic import BaseModel, Extra
class Requests(BaseModel):
"""Wrapper around requests to handle auth and async.
The main purpose of this wrapper is to handle authentication (by saving
headers) and enable easy async methods on the same base object.
"""
headers: Optional[Dict[str, str]] = None
aiosession: Optional[aiohttp.ClientSession] = None
class Config:
"""Configuration for this pydantic object."""
extra = Extra.forbid
arbitrary_types_allowed = True
def get(self, url: str, **kwargs: Any) -> requests.Response:
"""GET the URL and return the text."""
return requests.get(url, headers=self.headers, **kwargs)
def post(self, url: str, data: Dict[str, Any], **kwargs: Any) -> requests.Response:
"""POST to the URL and return the text."""
return requests.post(url, json=data, headers=self.headers, **kwargs)
def patch(self, url: str, data: Dict[str, Any], **kwargs: Any) -> requests.Response:
"""PATCH the URL and return the text."""
return requests.patch(url, json=data, headers=self.headers, **kwargs)
def put(self, url: str, data: Dict[str, Any], **kwargs: Any) -> requests.Response:
"""PUT the URL and return the text."""
return requests.put(url, json=data, headers=self.headers, **kwargs)
def delete(self, url: str, **kwargs: Any) -> requests.Response: |
23d755a4140d-1 | https://python.langchain.com/en/latest/_modules/langchain/requests.html | def delete(self, url: str, **kwargs: Any) -> requests.Response:
"""DELETE the URL and return the text."""
return requests.delete(url, headers=self.headers, **kwargs)
@asynccontextmanager
async def _arequest(
self, method: str, url: str, **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""Make an async request."""
if not self.aiosession:
async with aiohttp.ClientSession() as session:
async with session.request(
method, url, headers=self.headers, **kwargs
) as response:
yield response
else:
async with self.aiosession.request(
method, url, headers=self.headers, **kwargs
) as response:
yield response
@asynccontextmanager
async def aget(
self, url: str, **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""GET the URL and return the text asynchronously."""
async with self._arequest("GET", url, **kwargs) as response:
yield response
@asynccontextmanager
async def apost(
self, url: str, data: Dict[str, Any], **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""POST to the URL and return the text asynchronously."""
async with self._arequest("POST", url, **kwargs) as response:
yield response
@asynccontextmanager
async def apatch(
self, url: str, data: Dict[str, Any], **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""PATCH the URL and return the text asynchronously.""" |
23d755a4140d-2 | https://python.langchain.com/en/latest/_modules/langchain/requests.html | """PATCH the URL and return the text asynchronously."""
async with self._arequest("PATCH", url, **kwargs) as response:
yield response
@asynccontextmanager
async def aput(
self, url: str, data: Dict[str, Any], **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""PUT the URL and return the text asynchronously."""
async with self._arequest("PUT", url, **kwargs) as response:
yield response
@asynccontextmanager
async def adelete(
self, url: str, **kwargs: Any
) -> AsyncGenerator[aiohttp.ClientResponse, None]:
"""DELETE the URL and return the text asynchronously."""
async with self._arequest("DELETE", url, **kwargs) as response:
yield response
[docs]class TextRequestsWrapper(BaseModel):
"""Lightweight wrapper around requests library.
The main purpose of this wrapper is to always return a text output.
"""
headers: Optional[Dict[str, str]] = None
aiosession: Optional[aiohttp.ClientSession] = None
class Config:
"""Configuration for this pydantic object."""
extra = Extra.forbid
arbitrary_types_allowed = True
@property
def requests(self) -> Requests:
return Requests(headers=self.headers, aiosession=self.aiosession)
[docs] def get(self, url: str, **kwargs: Any) -> str:
"""GET the URL and return the text."""
return self.requests.get(url, **kwargs).text
[docs] def post(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str: |
23d755a4140d-3 | https://python.langchain.com/en/latest/_modules/langchain/requests.html | """POST to the URL and return the text."""
return self.requests.post(url, data, **kwargs).text
[docs] def patch(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str:
"""PATCH the URL and return the text."""
return self.requests.patch(url, data, **kwargs).text
[docs] def put(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str:
"""PUT the URL and return the text."""
return self.requests.put(url, data, **kwargs).text
[docs] def delete(self, url: str, **kwargs: Any) -> str:
"""DELETE the URL and return the text."""
return self.requests.delete(url, **kwargs).text
[docs] async def aget(self, url: str, **kwargs: Any) -> str:
"""GET the URL and return the text asynchronously."""
async with self.requests.aget(url, **kwargs) as response:
return await response.text()
[docs] async def apost(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str:
"""POST to the URL and return the text asynchronously."""
async with self.requests.apost(url, **kwargs) as response:
return await response.text()
[docs] async def apatch(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str:
"""PATCH the URL and return the text asynchronously."""
async with self.requests.apatch(url, **kwargs) as response:
return await response.text()
[docs] async def aput(self, url: str, data: Dict[str, Any], **kwargs: Any) -> str: |
23d755a4140d-4 | https://python.langchain.com/en/latest/_modules/langchain/requests.html | """PUT the URL and return the text asynchronously."""
async with self.requests.aput(url, **kwargs) as response:
return await response.text()
[docs] async def adelete(self, url: str, **kwargs: Any) -> str:
"""DELETE the URL and return the text asynchronously."""
async with self.requests.adelete(url, **kwargs) as response:
return await response.text()
# For backwards compatibility
RequestsWrapper = TextRequestsWrapper
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
7eaee2d98a14-0 | https://python.langchain.com/en/latest/_modules/langchain/document_transformers.html | Source code for langchain.document_transformers
"""Transform documents"""
from typing import Any, Callable, List, Sequence
import numpy as np
from pydantic import BaseModel, Field
from langchain.embeddings.base import Embeddings
from langchain.math_utils import cosine_similarity
from langchain.schema import BaseDocumentTransformer, Document
class _DocumentWithState(Document):
"""Wrapper for a document that includes arbitrary state."""
state: dict = Field(default_factory=dict)
"""State associated with the document."""
def to_document(self) -> Document:
"""Convert the DocumentWithState to a Document."""
return Document(page_content=self.page_content, metadata=self.metadata)
@classmethod
def from_document(cls, doc: Document) -> "_DocumentWithState":
"""Create a DocumentWithState from a Document."""
if isinstance(doc, cls):
return doc
return cls(page_content=doc.page_content, metadata=doc.metadata)
[docs]def get_stateful_documents(
documents: Sequence[Document],
) -> Sequence[_DocumentWithState]:
return [_DocumentWithState.from_document(doc) for doc in documents]
def _filter_similar_embeddings(
embedded_documents: List[List[float]], similarity_fn: Callable, threshold: float
) -> List[int]:
"""Filter redundant documents based on the similarity of their embeddings."""
similarity = np.tril(similarity_fn(embedded_documents, embedded_documents), k=-1)
redundant = np.where(similarity > threshold)
redundant_stacked = np.column_stack(redundant)
redundant_sorted = np.argsort(similarity[redundant])[::-1]
included_idxs = set(range(len(embedded_documents)))
for first_idx, second_idx in redundant_stacked[redundant_sorted]: |
7eaee2d98a14-1 | https://python.langchain.com/en/latest/_modules/langchain/document_transformers.html | for first_idx, second_idx in redundant_stacked[redundant_sorted]:
if first_idx in included_idxs and second_idx in included_idxs:
# Default to dropping the second document of any highly similar pair.
included_idxs.remove(second_idx)
return list(sorted(included_idxs))
def _get_embeddings_from_stateful_docs(
embeddings: Embeddings, documents: Sequence[_DocumentWithState]
) -> List[List[float]]:
if len(documents) and "embedded_doc" in documents[0].state:
embedded_documents = [doc.state["embedded_doc"] for doc in documents]
else:
embedded_documents = embeddings.embed_documents(
[d.page_content for d in documents]
)
for doc, embedding in zip(documents, embedded_documents):
doc.state["embedded_doc"] = embedding
return embedded_documents
[docs]class EmbeddingsRedundantFilter(BaseDocumentTransformer, BaseModel):
"""Filter that drops redundant documents by comparing their embeddings."""
embeddings: Embeddings
"""Embeddings to use for embedding document contents."""
similarity_fn: Callable = cosine_similarity
"""Similarity function for comparing documents. Function expected to take as input
two matrices (List[List[float]]) and return a matrix of scores where higher values
indicate greater similarity."""
similarity_threshold: float = 0.95
"""Threshold for determining when two documents are similar enough
to be considered redundant."""
class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
[docs] def transform_documents(
self, documents: Sequence[Document], **kwargs: Any
) -> Sequence[Document]:
"""Filter down documents."""
stateful_documents = get_stateful_documents(documents) |
7eaee2d98a14-2 | https://python.langchain.com/en/latest/_modules/langchain/document_transformers.html | """Filter down documents."""
stateful_documents = get_stateful_documents(documents)
embedded_documents = _get_embeddings_from_stateful_docs(
self.embeddings, stateful_documents
)
included_idxs = _filter_similar_embeddings(
embedded_documents, self.similarity_fn, self.similarity_threshold
)
return [stateful_documents[i] for i in sorted(included_idxs)]
[docs] async def atransform_documents(
self, documents: Sequence[Document], **kwargs: Any
) -> Sequence[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
0e9d83fcbd17-0 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/baby_agi/baby_agi.html | Source code for langchain.experimental.autonomous_agents.baby_agi.baby_agi
"""BabyAGI agent."""
from collections import deque
from typing import Any, Dict, List, Optional
from pydantic import BaseModel, Field
from langchain.base_language import BaseLanguageModel
from langchain.callbacks.manager import CallbackManagerForChainRun
from langchain.chains.base import Chain
from langchain.experimental.autonomous_agents.baby_agi.task_creation import (
TaskCreationChain,
)
from langchain.experimental.autonomous_agents.baby_agi.task_execution import (
TaskExecutionChain,
)
from langchain.experimental.autonomous_agents.baby_agi.task_prioritization import (
TaskPrioritizationChain,
)
from langchain.vectorstores.base import VectorStore
[docs]class BabyAGI(Chain, BaseModel):
"""Controller model for the BabyAGI agent."""
task_list: deque = Field(default_factory=deque)
task_creation_chain: Chain = Field(...)
task_prioritization_chain: Chain = Field(...)
execution_chain: Chain = Field(...)
task_id_counter: int = Field(1)
vectorstore: VectorStore = Field(init=False)
max_iterations: Optional[int] = None
[docs] class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
def add_task(self, task: Dict) -> None:
self.task_list.append(task)
def print_task_list(self) -> None:
print("\033[95m\033[1m" + "\n*****TASK LIST*****\n" + "\033[0m\033[0m")
for t in self.task_list:
print(str(t["task_id"]) + ": " + t["task_name"]) |
0e9d83fcbd17-1 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/baby_agi/baby_agi.html | print(str(t["task_id"]) + ": " + t["task_name"])
def print_next_task(self, task: Dict) -> None:
print("\033[92m\033[1m" + "\n*****NEXT TASK*****\n" + "\033[0m\033[0m")
print(str(task["task_id"]) + ": " + task["task_name"])
def print_task_result(self, result: str) -> None:
print("\033[93m\033[1m" + "\n*****TASK RESULT*****\n" + "\033[0m\033[0m")
print(result)
@property
def input_keys(self) -> List[str]:
return ["objective"]
@property
def output_keys(self) -> List[str]:
return []
[docs] def get_next_task(
self, result: str, task_description: str, objective: str
) -> List[Dict]:
"""Get the next task."""
task_names = [t["task_name"] for t in self.task_list]
incomplete_tasks = ", ".join(task_names)
response = self.task_creation_chain.run(
result=result,
task_description=task_description,
incomplete_tasks=incomplete_tasks,
objective=objective,
)
new_tasks = response.split("\n")
return [
{"task_name": task_name} for task_name in new_tasks if task_name.strip()
]
[docs] def prioritize_tasks(self, this_task_id: int, objective: str) -> List[Dict]:
"""Prioritize tasks."""
task_names = [t["task_name"] for t in list(self.task_list)]
next_task_id = int(this_task_id) + 1 |
0e9d83fcbd17-2 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/baby_agi/baby_agi.html | next_task_id = int(this_task_id) + 1
response = self.task_prioritization_chain.run(
task_names=", ".join(task_names),
next_task_id=str(next_task_id),
objective=objective,
)
new_tasks = response.split("\n")
prioritized_task_list = []
for task_string in new_tasks:
if not task_string.strip():
continue
task_parts = task_string.strip().split(".", 1)
if len(task_parts) == 2:
task_id = task_parts[0].strip()
task_name = task_parts[1].strip()
prioritized_task_list.append(
{"task_id": task_id, "task_name": task_name}
)
return prioritized_task_list
def _get_top_tasks(self, query: str, k: int) -> List[str]:
"""Get the top k tasks based on the query."""
results = self.vectorstore.similarity_search(query, k=k)
if not results:
return []
return [str(item.metadata["task"]) for item in results]
[docs] def execute_task(self, objective: str, task: str, k: int = 5) -> str:
"""Execute a task."""
context = self._get_top_tasks(query=objective, k=k)
return self.execution_chain.run(
objective=objective, context="\n".join(context), task=task
)
def _call(
self,
inputs: Dict[str, Any],
run_manager: Optional[CallbackManagerForChainRun] = None,
) -> Dict[str, Any]:
"""Run the agent."""
objective = inputs["objective"] |
0e9d83fcbd17-3 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/baby_agi/baby_agi.html | """Run the agent."""
objective = inputs["objective"]
first_task = inputs.get("first_task", "Make a todo list")
self.add_task({"task_id": 1, "task_name": first_task})
num_iters = 0
while True:
if self.task_list:
self.print_task_list()
# Step 1: Pull the first task
task = self.task_list.popleft()
self.print_next_task(task)
# Step 2: Execute the task
result = self.execute_task(objective, task["task_name"])
this_task_id = int(task["task_id"])
self.print_task_result(result)
# Step 3: Store the result in Pinecone
result_id = f"result_{task['task_id']}"
self.vectorstore.add_texts(
texts=[result],
metadatas=[{"task": task["task_name"]}],
ids=[result_id],
)
# Step 4: Create new tasks and reprioritize task list
new_tasks = self.get_next_task(result, task["task_name"], objective)
for new_task in new_tasks:
self.task_id_counter += 1
new_task.update({"task_id": self.task_id_counter})
self.add_task(new_task)
self.task_list = deque(self.prioritize_tasks(this_task_id, objective))
num_iters += 1
if self.max_iterations is not None and num_iters == self.max_iterations:
print(
"\033[91m\033[1m" + "\n*****TASK ENDING*****\n" + "\033[0m\033[0m"
)
break
return {}
[docs] @classmethod
def from_llm( |
0e9d83fcbd17-4 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/baby_agi/baby_agi.html | return {}
[docs] @classmethod
def from_llm(
cls,
llm: BaseLanguageModel,
vectorstore: VectorStore,
verbose: bool = False,
task_execution_chain: Optional[Chain] = None,
**kwargs: Dict[str, Any],
) -> "BabyAGI":
"""Initialize the BabyAGI Controller."""
task_creation_chain = TaskCreationChain.from_llm(llm, verbose=verbose)
task_prioritization_chain = TaskPrioritizationChain.from_llm(
llm, verbose=verbose
)
if task_execution_chain is None:
execution_chain: Chain = TaskExecutionChain.from_llm(llm, verbose=verbose)
else:
execution_chain = task_execution_chain
return cls(
task_creation_chain=task_creation_chain,
task_prioritization_chain=task_prioritization_chain,
execution_chain=execution_chain,
vectorstore=vectorstore,
**kwargs,
)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
db85b0175ccf-0 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/autogpt/agent.html | Source code for langchain.experimental.autonomous_agents.autogpt.agent
from __future__ import annotations
from typing import List, Optional
from pydantic import ValidationError
from langchain.chains.llm import LLMChain
from langchain.chat_models.base import BaseChatModel
from langchain.experimental.autonomous_agents.autogpt.output_parser import (
AutoGPTOutputParser,
BaseAutoGPTOutputParser,
)
from langchain.experimental.autonomous_agents.autogpt.prompt import AutoGPTPrompt
from langchain.experimental.autonomous_agents.autogpt.prompt_generator import (
FINISH_NAME,
)
from langchain.schema import (
AIMessage,
BaseMessage,
Document,
HumanMessage,
SystemMessage,
)
from langchain.tools.base import BaseTool
from langchain.tools.human.tool import HumanInputRun
from langchain.vectorstores.base import VectorStoreRetriever
[docs]class AutoGPT:
"""Agent class for interacting with Auto-GPT."""
def __init__(
self,
ai_name: str,
memory: VectorStoreRetriever,
chain: LLMChain,
output_parser: BaseAutoGPTOutputParser,
tools: List[BaseTool],
feedback_tool: Optional[HumanInputRun] = None,
):
self.ai_name = ai_name
self.memory = memory
self.full_message_history: List[BaseMessage] = []
self.next_action_count = 0
self.chain = chain
self.output_parser = output_parser
self.tools = tools
self.feedback_tool = feedback_tool
@classmethod
def from_llm_and_tools(
cls,
ai_name: str,
ai_role: str,
memory: VectorStoreRetriever, |
db85b0175ccf-1 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/autogpt/agent.html | ai_role: str,
memory: VectorStoreRetriever,
tools: List[BaseTool],
llm: BaseChatModel,
human_in_the_loop: bool = False,
output_parser: Optional[BaseAutoGPTOutputParser] = None,
) -> AutoGPT:
prompt = AutoGPTPrompt(
ai_name=ai_name,
ai_role=ai_role,
tools=tools,
input_variables=["memory", "messages", "goals", "user_input"],
token_counter=llm.get_num_tokens,
)
human_feedback_tool = HumanInputRun() if human_in_the_loop else None
chain = LLMChain(llm=llm, prompt=prompt)
return cls(
ai_name,
memory,
chain,
output_parser or AutoGPTOutputParser(),
tools,
feedback_tool=human_feedback_tool,
)
def run(self, goals: List[str]) -> str:
user_input = (
"Determine which next command to use, "
"and respond using the format specified above:"
)
# Interaction Loop
loop_count = 0
while True:
# Discontinue if continuous limit is reached
loop_count += 1
# Send message to AI, get response
assistant_reply = self.chain.run(
goals=goals,
messages=self.full_message_history,
memory=self.memory,
user_input=user_input,
)
# Print Assistant thoughts
print(assistant_reply)
self.full_message_history.append(HumanMessage(content=user_input))
self.full_message_history.append(AIMessage(content=assistant_reply))
# Get command name and arguments |
db85b0175ccf-2 | https://python.langchain.com/en/latest/_modules/langchain/experimental/autonomous_agents/autogpt/agent.html | # Get command name and arguments
action = self.output_parser.parse(assistant_reply)
tools = {t.name: t for t in self.tools}
if action.name == FINISH_NAME:
return action.args["response"]
if action.name in tools:
tool = tools[action.name]
try:
observation = tool.run(action.args)
except ValidationError as e:
observation = (
f"Validation Error in args: {str(e)}, args: {action.args}"
)
except Exception as e:
observation = (
f"Error: {str(e)}, {type(e).__name__}, args: {action.args}"
)
result = f"Command {tool.name} returned: {observation}"
elif action.name == "ERROR":
result = f"Error: {action.args}. "
else:
result = (
f"Unknown command '{action.name}'. "
f"Please refer to the 'COMMANDS' list for available "
f"commands and only respond in the specified JSON format."
)
memory_to_add = (
f"Assistant Reply: {assistant_reply} " f"\nResult: {result} "
)
if self.feedback_tool is not None:
feedback = f"\n{self.feedback_tool.run('Input: ')}"
if feedback in {"q", "stop"}:
print("EXITING")
return "EXITING"
memory_to_add += feedback
self.memory.add_documents([Document(page_content=memory_to_add)])
self.full_message_history.append(SystemMessage(content=result))
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
3829c51eaf4c-0 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | Source code for langchain.experimental.generative_agents.generative_agent
import re
from datetime import datetime
from typing import Any, Dict, List, Optional, Tuple
from pydantic import BaseModel, Field
from langchain import LLMChain
from langchain.base_language import BaseLanguageModel
from langchain.experimental.generative_agents.memory import GenerativeAgentMemory
from langchain.prompts import PromptTemplate
[docs]class GenerativeAgent(BaseModel):
"""A character with memory and innate characteristics."""
name: str
"""The character's name."""
age: Optional[int] = None
"""The optional age of the character."""
traits: str = "N/A"
"""Permanent traits to ascribe to the character."""
status: str
"""The traits of the character you wish not to change."""
memory: GenerativeAgentMemory
"""The memory object that combines relevance, recency, and 'importance'."""
llm: BaseLanguageModel
"""The underlying language model."""
verbose: bool = False
summary: str = "" #: :meta private:
"""Stateful self-summary generated via reflection on the character's memory."""
summary_refresh_seconds: int = 3600 #: :meta private:
"""How frequently to re-generate the summary."""
last_refreshed: datetime = Field(default_factory=datetime.now) # : :meta private:
"""The last time the character's summary was regenerated."""
daily_summaries: List[str] = Field(default_factory=list) # : :meta private:
"""Summary of the events in the plan that the agent took."""
[docs] class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
# LLM-related methods
@staticmethod |
3829c51eaf4c-1 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | arbitrary_types_allowed = True
# LLM-related methods
@staticmethod
def _parse_list(text: str) -> List[str]:
"""Parse a newline-separated string into a list of strings."""
lines = re.split(r"\n", text.strip())
return [re.sub(r"^\s*\d+\.\s*", "", line).strip() for line in lines]
def chain(self, prompt: PromptTemplate) -> LLMChain:
return LLMChain(
llm=self.llm, prompt=prompt, verbose=self.verbose, memory=self.memory
)
def _get_entity_from_observation(self, observation: str) -> str:
prompt = PromptTemplate.from_template(
"What is the observed entity in the following observation? {observation}"
+ "\nEntity="
)
return self.chain(prompt).run(observation=observation).strip()
def _get_entity_action(self, observation: str, entity_name: str) -> str:
prompt = PromptTemplate.from_template(
"What is the {entity} doing in the following observation? {observation}"
+ "\nThe {entity} is"
)
return (
self.chain(prompt).run(entity=entity_name, observation=observation).strip()
)
[docs] def summarize_related_memories(self, observation: str) -> str:
"""Summarize memories that are most relevant to an observation."""
prompt = PromptTemplate.from_template(
"""
{q1}?
Context from memory:
{relevant_memories}
Relevant context:
"""
)
entity_name = self._get_entity_from_observation(observation)
entity_action = self._get_entity_action(observation, entity_name) |
3829c51eaf4c-2 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | entity_action = self._get_entity_action(observation, entity_name)
q1 = f"What is the relationship between {self.name} and {entity_name}"
q2 = f"{entity_name} is {entity_action}"
return self.chain(prompt=prompt).run(q1=q1, queries=[q1, q2]).strip()
def _generate_reaction(
self, observation: str, suffix: str, now: Optional[datetime] = None
) -> str:
"""React to a given observation or dialogue act."""
prompt = PromptTemplate.from_template(
"{agent_summary_description}"
+ "\nIt is {current_time}."
+ "\n{agent_name}'s status: {agent_status}"
+ "\nSummary of relevant context from {agent_name}'s memory:"
+ "\n{relevant_memories}"
+ "\nMost recent observations: {most_recent_memories}"
+ "\nObservation: {observation}"
+ "\n\n"
+ suffix
)
agent_summary_description = self.get_summary(now=now)
relevant_memories_str = self.summarize_related_memories(observation)
current_time_str = (
datetime.now().strftime("%B %d, %Y, %I:%M %p")
if now is None
else now.strftime("%B %d, %Y, %I:%M %p")
)
kwargs: Dict[str, Any] = dict(
agent_summary_description=agent_summary_description,
current_time=current_time_str,
relevant_memories=relevant_memories_str,
agent_name=self.name,
observation=observation,
agent_status=self.status,
)
consumed_tokens = self.llm.get_num_tokens( |
3829c51eaf4c-3 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | )
consumed_tokens = self.llm.get_num_tokens(
prompt.format(most_recent_memories="", **kwargs)
)
kwargs[self.memory.most_recent_memories_token_key] = consumed_tokens
return self.chain(prompt=prompt).run(**kwargs).strip()
def _clean_response(self, text: str) -> str:
return re.sub(f"^{self.name} ", "", text.strip()).strip()
[docs] def generate_reaction(
self, observation: str, now: Optional[datetime] = None
) -> Tuple[bool, str]:
"""React to a given observation."""
call_to_action_template = (
"Should {agent_name} react to the observation, and if so,"
+ " what would be an appropriate reaction? Respond in one line."
+ ' If the action is to engage in dialogue, write:\nSAY: "what to say"'
+ "\notherwise, write:\nREACT: {agent_name}'s reaction (if anything)."
+ "\nEither do nothing, react, or say something but not both.\n\n"
)
full_result = self._generate_reaction(
observation, call_to_action_template, now=now
)
result = full_result.strip().split("\n")[0]
# AAA
self.memory.save_context(
{},
{
self.memory.add_memory_key: f"{self.name} observed "
f"{observation} and reacted by {result}",
self.memory.now_key: now,
},
)
if "REACT:" in result:
reaction = self._clean_response(result.split("REACT:")[-1])
return False, f"{self.name} {reaction}"
if "SAY:" in result: |
3829c51eaf4c-4 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | if "SAY:" in result:
said_value = self._clean_response(result.split("SAY:")[-1])
return True, f"{self.name} said {said_value}"
else:
return False, result
[docs] def generate_dialogue_response(
self, observation: str, now: Optional[datetime] = None
) -> Tuple[bool, str]:
"""React to a given observation."""
call_to_action_template = (
"What would {agent_name} say? To end the conversation, write:"
' GOODBYE: "what to say". Otherwise to continue the conversation,'
' write: SAY: "what to say next"\n\n'
)
full_result = self._generate_reaction(
observation, call_to_action_template, now=now
)
result = full_result.strip().split("\n")[0]
if "GOODBYE:" in result:
farewell = self._clean_response(result.split("GOODBYE:")[-1])
self.memory.save_context(
{},
{
self.memory.add_memory_key: f"{self.name} observed "
f"{observation} and said {farewell}",
self.memory.now_key: now,
},
)
return False, f"{self.name} said {farewell}"
if "SAY:" in result:
response_text = self._clean_response(result.split("SAY:")[-1])
self.memory.save_context(
{},
{
self.memory.add_memory_key: f"{self.name} observed "
f"{observation} and said {response_text}",
self.memory.now_key: now,
},
)
return True, f"{self.name} said {response_text}" |
3829c51eaf4c-5 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | )
return True, f"{self.name} said {response_text}"
else:
return False, result
######################################################
# Agent stateful' summary methods. #
# Each dialog or response prompt includes a header #
# summarizing the agent's self-description. This is #
# updated periodically through probing its memories #
######################################################
def _compute_agent_summary(self) -> str:
""""""
prompt = PromptTemplate.from_template(
"How would you summarize {name}'s core characteristics given the"
+ " following statements:\n"
+ "{relevant_memories}"
+ "Do not embellish."
+ "\n\nSummary: "
)
# The agent seeks to think about their core characteristics.
return (
self.chain(prompt)
.run(name=self.name, queries=[f"{self.name}'s core characteristics"])
.strip()
)
[docs] def get_summary(
self, force_refresh: bool = False, now: Optional[datetime] = None
) -> str:
"""Return a descriptive summary of the agent."""
current_time = datetime.now() if now is None else now
since_refresh = (current_time - self.last_refreshed).seconds
if (
not self.summary
or since_refresh >= self.summary_refresh_seconds
or force_refresh
):
self.summary = self._compute_agent_summary()
self.last_refreshed = current_time
age = self.age if self.age is not None else "N/A"
return (
f"Name: {self.name} (age: {age})"
+ f"\nInnate traits: {self.traits}" |
3829c51eaf4c-6 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/generative_agent.html | + f"\nInnate traits: {self.traits}"
+ f"\n{self.summary}"
)
[docs] def get_full_header(
self, force_refresh: bool = False, now: Optional[datetime] = None
) -> str:
"""Return a full header of the agent's status, summary, and current time."""
now = datetime.now() if now is None else now
summary = self.get_summary(force_refresh=force_refresh, now=now)
current_time_str = now.strftime("%B %d, %Y, %I:%M %p")
return (
f"{summary}\nIt is {current_time_str}.\n{self.name}'s status: {self.status}"
)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
cb53ac4d4673-0 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | Source code for langchain.experimental.generative_agents.memory
import logging
import re
from datetime import datetime
from typing import Any, Dict, List, Optional
from langchain import LLMChain
from langchain.base_language import BaseLanguageModel
from langchain.prompts import PromptTemplate
from langchain.retrievers import TimeWeightedVectorStoreRetriever
from langchain.schema import BaseMemory, Document
from langchain.utils import mock_now
logger = logging.getLogger(__name__)
[docs]class GenerativeAgentMemory(BaseMemory):
llm: BaseLanguageModel
"""The core language model."""
memory_retriever: TimeWeightedVectorStoreRetriever
"""The retriever to fetch related memories."""
verbose: bool = False
reflection_threshold: Optional[float] = None
"""When aggregate_importance exceeds reflection_threshold, stop to reflect."""
current_plan: List[str] = []
"""The current plan of the agent."""
# A weight of 0.15 makes this less important than it
# would be otherwise, relative to salience and time
importance_weight: float = 0.15
"""How much weight to assign the memory importance."""
aggregate_importance: float = 0.0 # : :meta private:
"""Track the sum of the 'importance' of recent memories.
Triggers reflection when it reaches reflection_threshold."""
max_tokens_limit: int = 1200 # : :meta private:
# input keys
queries_key: str = "queries"
most_recent_memories_token_key: str = "recent_memories_token"
add_memory_key: str = "add_memory"
# output keys
relevant_memories_key: str = "relevant_memories" |
cb53ac4d4673-1 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | # output keys
relevant_memories_key: str = "relevant_memories"
relevant_memories_simple_key: str = "relevant_memories_simple"
most_recent_memories_key: str = "most_recent_memories"
now_key: str = "now"
reflecting: bool = False
def chain(self, prompt: PromptTemplate) -> LLMChain:
return LLMChain(llm=self.llm, prompt=prompt, verbose=self.verbose)
@staticmethod
def _parse_list(text: str) -> List[str]:
"""Parse a newline-separated string into a list of strings."""
lines = re.split(r"\n", text.strip())
lines = [line for line in lines if line.strip()] # remove empty lines
return [re.sub(r"^\s*\d+\.\s*", "", line).strip() for line in lines]
def _get_topics_of_reflection(self, last_k: int = 50) -> List[str]:
"""Return the 3 most salient high-level questions about recent observations."""
prompt = PromptTemplate.from_template(
"{observations}\n\n"
"Given only the information above, what are the 3 most salient "
"high-level questions we can answer about the subjects in the statements?\n"
"Provide each question on a new line."
)
observations = self.memory_retriever.memory_stream[-last_k:]
observation_str = "\n".join(
[self._format_memory_detail(o) for o in observations]
)
result = self.chain(prompt).run(observations=observation_str)
return self._parse_list(result)
def _get_insights_on_topic(
self, topic: str, now: Optional[datetime] = None |
cb53ac4d4673-2 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | self, topic: str, now: Optional[datetime] = None
) -> List[str]:
"""Generate 'insights' on a topic of reflection, based on pertinent memories."""
prompt = PromptTemplate.from_template(
"Statements relevant to: '{topic}'\n"
"---\n"
"{related_statements}\n"
"---\n"
"What 5 high-level novel insights can you infer from the above statements "
"that are relevant for answering the following question?\n"
"Do not include any insights that are not relevant to the question.\n"
"Do not repeat any insights that have already been made.\n\n"
"Question: {topic}\n\n"
"(example format: insight (because of 1, 5, 3))\n"
)
related_memories = self.fetch_memories(topic, now=now)
related_statements = "\n".join(
[
self._format_memory_detail(memory, prefix=f"{i+1}. ")
for i, memory in enumerate(related_memories)
]
)
result = self.chain(prompt).run(
topic=topic, related_statements=related_statements
)
# TODO: Parse the connections between memories and insights
return self._parse_list(result)
[docs] def pause_to_reflect(self, now: Optional[datetime] = None) -> List[str]:
"""Reflect on recent observations and generate 'insights'."""
if self.verbose:
logger.info("Character is reflecting")
new_insights = []
topics = self._get_topics_of_reflection()
for topic in topics:
insights = self._get_insights_on_topic(topic, now=now) |
cb53ac4d4673-3 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | insights = self._get_insights_on_topic(topic, now=now)
for insight in insights:
self.add_memory(insight, now=now)
new_insights.extend(insights)
return new_insights
def _score_memory_importance(self, memory_content: str) -> float:
"""Score the absolute importance of the given memory."""
prompt = PromptTemplate.from_template(
"On the scale of 1 to 10, where 1 is purely mundane"
+ " (e.g., brushing teeth, making bed) and 10 is"
+ " extremely poignant (e.g., a break up, college"
+ " acceptance), rate the likely poignancy of the"
+ " following piece of memory. Respond with a single integer."
+ "\nMemory: {memory_content}"
+ "\nRating: "
)
score = self.chain(prompt).run(memory_content=memory_content).strip()
if self.verbose:
logger.info(f"Importance score: {score}")
match = re.search(r"^\D*(\d+)", score)
if match:
return (float(match.group(1)) / 10) * self.importance_weight
else:
return 0.0
[docs] def add_memory(
self, memory_content: str, now: Optional[datetime] = None
) -> List[str]:
"""Add an observation or memory to the agent's memory."""
importance_score = self._score_memory_importance(memory_content)
self.aggregate_importance += importance_score
document = Document(
page_content=memory_content, metadata={"importance": importance_score}
)
result = self.memory_retriever.add_documents([document], current_time=now) |
cb53ac4d4673-4 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | result = self.memory_retriever.add_documents([document], current_time=now)
# After an agent has processed a certain amount of memories (as measured by
# aggregate importance), it is time to reflect on recent events to add
# more synthesized memories to the agent's memory stream.
if (
self.reflection_threshold is not None
and self.aggregate_importance > self.reflection_threshold
and not self.reflecting
):
self.reflecting = True
self.pause_to_reflect(now=now)
# Hack to clear the importance from reflection
self.aggregate_importance = 0.0
self.reflecting = False
return result
[docs] def fetch_memories(
self, observation: str, now: Optional[datetime] = None
) -> List[Document]:
"""Fetch related memories."""
if now is not None:
with mock_now(now):
return self.memory_retriever.get_relevant_documents(observation)
else:
return self.memory_retriever.get_relevant_documents(observation)
def format_memories_detail(self, relevant_memories: List[Document]) -> str:
content = []
for mem in relevant_memories:
content.append(self._format_memory_detail(mem, prefix="- "))
return "\n".join([f"{mem}" for mem in content])
def _format_memory_detail(self, memory: Document, prefix: str = "") -> str:
created_time = memory.metadata["created_at"].strftime("%B %d, %Y, %I:%M %p")
return f"{prefix}[{created_time}] {memory.page_content.strip()}"
def format_memories_simple(self, relevant_memories: List[Document]) -> str: |
cb53ac4d4673-5 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | def format_memories_simple(self, relevant_memories: List[Document]) -> str:
return "; ".join([f"{mem.page_content}" for mem in relevant_memories])
def _get_memories_until_limit(self, consumed_tokens: int) -> str:
"""Reduce the number of tokens in the documents."""
result = []
for doc in self.memory_retriever.memory_stream[::-1]:
if consumed_tokens >= self.max_tokens_limit:
break
consumed_tokens += self.llm.get_num_tokens(doc.page_content)
if consumed_tokens < self.max_tokens_limit:
result.append(doc)
return self.format_memories_simple(result)
@property
def memory_variables(self) -> List[str]:
"""Input keys this memory class will load dynamically."""
return []
[docs] def load_memory_variables(self, inputs: Dict[str, Any]) -> Dict[str, str]:
"""Return key-value pairs given the text input to the chain."""
queries = inputs.get(self.queries_key)
now = inputs.get(self.now_key)
if queries is not None:
relevant_memories = [
mem for query in queries for mem in self.fetch_memories(query, now=now)
]
return {
self.relevant_memories_key: self.format_memories_detail(
relevant_memories
),
self.relevant_memories_simple_key: self.format_memories_simple(
relevant_memories
),
}
most_recent_memories_token = inputs.get(self.most_recent_memories_token_key)
if most_recent_memories_token is not None:
return {
self.most_recent_memories_key: self._get_memories_until_limit(
most_recent_memories_token
)
}
return {} |
cb53ac4d4673-6 | https://python.langchain.com/en/latest/_modules/langchain/experimental/generative_agents/memory.html | most_recent_memories_token
)
}
return {}
[docs] def save_context(self, inputs: Dict[str, Any], outputs: Dict[str, Any]) -> None:
"""Save the context of this model run to memory."""
# TODO: fix the save memory key
mem = outputs.get(self.add_memory_key)
now = outputs.get(self.now_key)
if mem:
self.add_memory(mem, now=now)
[docs] def clear(self) -> None:
"""Clear memory contents."""
# TODO
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
fdb41b8d8d0d-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/time_weighted_retriever.html | Source code for langchain.retrievers.time_weighted_retriever
"""Retriever that combines embedding similarity with recency in retrieving values."""
import datetime
from copy import deepcopy
from typing import Any, Dict, List, Optional, Tuple
from pydantic import BaseModel, Field
from langchain.schema import BaseRetriever, Document
from langchain.vectorstores.base import VectorStore
def _get_hours_passed(time: datetime.datetime, ref_time: datetime.datetime) -> float:
"""Get the hours passed between two datetime objects."""
return (time - ref_time).total_seconds() / 3600
[docs]class TimeWeightedVectorStoreRetriever(BaseRetriever, BaseModel):
"""Retriever combining embedding similarity with recency."""
vectorstore: VectorStore
"""The vectorstore to store documents and determine salience."""
search_kwargs: dict = Field(default_factory=lambda: dict(k=100))
"""Keyword arguments to pass to the vectorstore similarity search."""
# TODO: abstract as a queue
memory_stream: List[Document] = Field(default_factory=list)
"""The memory_stream of documents to search through."""
decay_rate: float = Field(default=0.01)
"""The exponential decay factor used as (1.0-decay_rate)**(hrs_passed)."""
k: int = 4
"""The maximum number of documents to retrieve in a given call."""
other_score_keys: List[str] = []
"""Other keys in the metadata to factor into the score, e.g. 'importance'."""
default_salience: Optional[float] = None
"""The salience to assign memories not retrieved from the vector store.
None assigns no salience to documents not fetched from the vector store.
"""
class Config: |
fdb41b8d8d0d-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/time_weighted_retriever.html | """
class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
def _get_combined_score(
self,
document: Document,
vector_relevance: Optional[float],
current_time: datetime.datetime,
) -> float:
"""Return the combined score for a document."""
hours_passed = _get_hours_passed(
current_time,
document.metadata["last_accessed_at"],
)
score = (1.0 - self.decay_rate) ** hours_passed
for key in self.other_score_keys:
if key in document.metadata:
score += document.metadata[key]
if vector_relevance is not None:
score += vector_relevance
return score
[docs] def get_salient_docs(self, query: str) -> Dict[int, Tuple[Document, float]]:
"""Return documents that are salient to the query."""
docs_and_scores: List[Tuple[Document, float]]
docs_and_scores = self.vectorstore.similarity_search_with_relevance_scores(
query, **self.search_kwargs
)
results = {}
for fetched_doc, relevance in docs_and_scores:
if "buffer_idx" in fetched_doc.metadata:
buffer_idx = fetched_doc.metadata["buffer_idx"]
doc = self.memory_stream[buffer_idx]
results[buffer_idx] = (doc, relevance)
return results
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
"""Return documents that are relevant to the query."""
current_time = datetime.datetime.now()
docs_and_scores = {
doc.metadata["buffer_idx"]: (doc, self.default_salience)
for doc in self.memory_stream[-self.k :] |
fdb41b8d8d0d-2 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/time_weighted_retriever.html | for doc in self.memory_stream[-self.k :]
}
# If a doc is considered salient, update the salience score
docs_and_scores.update(self.get_salient_docs(query))
rescored_docs = [
(doc, self._get_combined_score(doc, relevance, current_time))
for doc, relevance in docs_and_scores.values()
]
rescored_docs.sort(key=lambda x: x[1], reverse=True)
result = []
# Ensure frequently accessed memories aren't forgotten
for doc, _ in rescored_docs[: self.k]:
# TODO: Update vector store doc once `update` method is exposed.
buffered_doc = self.memory_stream[doc.metadata["buffer_idx"]]
buffered_doc.metadata["last_accessed_at"] = current_time
result.append(buffered_doc)
return result
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
"""Return documents that are relevant to the query."""
raise NotImplementedError
[docs] def add_documents(self, documents: List[Document], **kwargs: Any) -> List[str]:
"""Add documents to vectorstore."""
current_time = kwargs.get("current_time")
if current_time is None:
current_time = datetime.datetime.now()
# Avoid mutating input documents
dup_docs = [deepcopy(d) for d in documents]
for i, doc in enumerate(dup_docs):
if "last_accessed_at" not in doc.metadata:
doc.metadata["last_accessed_at"] = current_time
if "created_at" not in doc.metadata:
doc.metadata["created_at"] = current_time
doc.metadata["buffer_idx"] = len(self.memory_stream) + i |
fdb41b8d8d0d-3 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/time_weighted_retriever.html | doc.metadata["buffer_idx"] = len(self.memory_stream) + i
self.memory_stream.extend(dup_docs)
return self.vectorstore.add_documents(dup_docs, **kwargs)
[docs] async def aadd_documents(
self, documents: List[Document], **kwargs: Any
) -> List[str]:
"""Add documents to vectorstore."""
current_time = kwargs.get("current_time")
if current_time is None:
current_time = datetime.datetime.now()
# Avoid mutating input documents
dup_docs = [deepcopy(d) for d in documents]
for i, doc in enumerate(dup_docs):
if "last_accessed_at" not in doc.metadata:
doc.metadata["last_accessed_at"] = current_time
if "created_at" not in doc.metadata:
doc.metadata["created_at"] = current_time
doc.metadata["buffer_idx"] = len(self.memory_stream) + i
self.memory_stream.extend(dup_docs)
return await self.vectorstore.aadd_documents(dup_docs, **kwargs)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
dbc6d886901a-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/pinecone_hybrid_search.html | Source code for langchain.retrievers.pinecone_hybrid_search
"""Taken from: https://docs.pinecone.io/docs/hybrid-search"""
import hashlib
from typing import Any, Dict, List, Optional
from pydantic import BaseModel, Extra, root_validator
from langchain.embeddings.base import Embeddings
from langchain.schema import BaseRetriever, Document
def hash_text(text: str) -> str:
return str(hashlib.sha256(text.encode("utf-8")).hexdigest())
def create_index(
contexts: List[str],
index: Any,
embeddings: Embeddings,
sparse_encoder: Any,
ids: Optional[List[str]] = None,
metadatas: Optional[List[dict]] = None,
) -> None:
batch_size = 32
_iterator = range(0, len(contexts), batch_size)
try:
from tqdm.auto import tqdm
_iterator = tqdm(_iterator)
except ImportError:
pass
if ids is None:
# create unique ids using hash of the text
ids = [hash_text(context) for context in contexts]
for i in _iterator:
# find end of batch
i_end = min(i + batch_size, len(contexts))
# extract batch
context_batch = contexts[i:i_end]
batch_ids = ids[i:i_end]
metadata_batch = (
metadatas[i:i_end] if metadatas else [{} for _ in context_batch]
)
# add context passages as metadata
meta = [
{"context": context, **metadata}
for context, metadata in zip(context_batch, metadata_batch)
]
# create dense vectors
dense_embeds = embeddings.embed_documents(context_batch) |
dbc6d886901a-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/pinecone_hybrid_search.html | # create dense vectors
dense_embeds = embeddings.embed_documents(context_batch)
# create sparse vectors
sparse_embeds = sparse_encoder.encode_documents(context_batch)
for s in sparse_embeds:
s["values"] = [float(s1) for s1 in s["values"]]
vectors = []
# loop through the data and create dictionaries for upserts
for doc_id, sparse, dense, metadata in zip(
batch_ids, sparse_embeds, dense_embeds, meta
):
vectors.append(
{
"id": doc_id,
"sparse_values": sparse,
"values": dense,
"metadata": metadata,
}
)
# upload the documents to the new hybrid index
index.upsert(vectors)
[docs]class PineconeHybridSearchRetriever(BaseRetriever, BaseModel):
embeddings: Embeddings
sparse_encoder: Any
index: Any
top_k: int = 4
alpha: float = 0.5
class Config:
"""Configuration for this pydantic object."""
extra = Extra.forbid
arbitrary_types_allowed = True
[docs] def add_texts(
self,
texts: List[str],
ids: Optional[List[str]] = None,
metadatas: Optional[List[dict]] = None,
) -> None:
create_index(
texts,
self.index,
self.embeddings,
self.sparse_encoder,
ids=ids,
metadatas=metadatas,
)
@root_validator()
def validate_environment(cls, values: Dict) -> Dict:
"""Validate that api key and python package exists in environment."""
try: |
dbc6d886901a-2 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/pinecone_hybrid_search.html | """Validate that api key and python package exists in environment."""
try:
from pinecone_text.hybrid import hybrid_convex_scale # noqa:F401
from pinecone_text.sparse.base_sparse_encoder import (
BaseSparseEncoder, # noqa:F401
)
except ImportError:
raise ValueError(
"Could not import pinecone_text python package. "
"Please install it with `pip install pinecone_text`."
)
return values
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
from pinecone_text.hybrid import hybrid_convex_scale
sparse_vec = self.sparse_encoder.encode_queries(query)
# convert the question into a dense vector
dense_vec = self.embeddings.embed_query(query)
# scale alpha with hybrid_scale
dense_vec, sparse_vec = hybrid_convex_scale(dense_vec, sparse_vec, self.alpha)
sparse_vec["values"] = [float(s1) for s1 in sparse_vec["values"]]
# query pinecone with the query parameters
result = self.index.query(
vector=dense_vec,
sparse_vector=sparse_vec,
top_k=self.top_k,
include_metadata=True,
)
final_result = []
for res in result["matches"]:
context = res["metadata"].pop("context")
final_result.append(
Document(page_content=context, metadata=res["metadata"])
)
# return search results as json
return final_result
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
bef6f0928cf3-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/vespa_retriever.html | Source code for langchain.retrievers.vespa_retriever
"""Wrapper for retrieving documents from Vespa."""
from __future__ import annotations
import json
from typing import TYPE_CHECKING, Any, Dict, List, Literal, Optional, Sequence, Union
from langchain.schema import BaseRetriever, Document
if TYPE_CHECKING:
from vespa.application import Vespa
[docs]class VespaRetriever(BaseRetriever):
def __init__(
self,
app: Vespa,
body: Dict,
content_field: str,
metadata_fields: Optional[Sequence[str]] = None,
):
self._application = app
self._query_body = body
self._content_field = content_field
self._metadata_fields = metadata_fields or ()
def _query(self, body: Dict) -> List[Document]:
response = self._application.query(body)
if not str(response.status_code).startswith("2"):
raise RuntimeError(
"Could not retrieve data from Vespa. Error code: {}".format(
response.status_code
)
)
root = response.json["root"]
if "errors" in root:
raise RuntimeError(json.dumps(root["errors"]))
docs = []
for child in response.hits:
page_content = child["fields"].pop(self._content_field, "")
if self._metadata_fields == "*":
metadata = child["fields"]
else:
metadata = {mf: child["fields"].get(mf) for mf in self._metadata_fields}
metadata["id"] = child["id"]
docs.append(Document(page_content=page_content, metadata=metadata))
return docs |
bef6f0928cf3-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/vespa_retriever.html | docs.append(Document(page_content=page_content, metadata=metadata))
return docs
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
body = self._query_body.copy()
body["query"] = query
return self._query(body)
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
[docs] def get_relevant_documents_with_filter(
self, query: str, *, _filter: Optional[str] = None
) -> List[Document]:
body = self._query_body.copy()
_filter = f" and {_filter}" if _filter else ""
body["yql"] = body["yql"] + _filter
body["query"] = query
return self._query(body)
[docs] @classmethod
def from_params(
cls,
url: str,
content_field: str,
*,
k: Optional[int] = None,
metadata_fields: Union[Sequence[str], Literal["*"]] = (),
sources: Union[Sequence[str], Literal["*"], None] = None,
_filter: Optional[str] = None,
yql: Optional[str] = None,
**kwargs: Any,
) -> VespaRetriever:
"""Instantiate retriever from params.
Args:
url (str): Vespa app URL.
content_field (str): Field in results to return as Document page_content.
k (Optional[int]): Number of Documents to return. Defaults to None.
metadata_fields(Sequence[str] or "*"): Fields in results to include in
document metadata. Defaults to empty tuple (). |
bef6f0928cf3-2 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/vespa_retriever.html | document metadata. Defaults to empty tuple ().
sources (Sequence[str] or "*" or None): Sources to retrieve
from. Defaults to None.
_filter (Optional[str]): Document filter condition expressed in YQL.
Defaults to None.
yql (Optional[str]): Full YQL query to be used. Should not be specified
if _filter or sources are specified. Defaults to None.
kwargs (Any): Keyword arguments added to query body.
"""
try:
from vespa.application import Vespa
except ImportError:
raise ImportError(
"pyvespa is not installed, please install with `pip install pyvespa`"
)
app = Vespa(url)
body = kwargs.copy()
if yql and (sources or _filter):
raise ValueError(
"yql should only be specified if both sources and _filter are not "
"specified."
)
else:
if metadata_fields == "*":
_fields = "*"
body["summary"] = "short"
else:
_fields = ", ".join([content_field] + list(metadata_fields or []))
_sources = ", ".join(sources) if isinstance(sources, Sequence) else "*"
_filter = f" and {_filter}" if _filter else ""
yql = f"select {_fields} from sources {_sources} where userQuery(){_filter}"
body["yql"] = yql
if k:
body["hits"] = k
return cls(app, body, content_field, metadata_fields=metadata_fields)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
201b1860581d-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/tfidf.html | Source code for langchain.retrievers.tfidf
"""TF-IDF Retriever.
Largely based on
https://github.com/asvskartheek/Text-Retrieval/blob/master/TF-IDF%20Search%20Engine%20(SKLEARN).ipynb"""
from __future__ import annotations
from typing import Any, Dict, Iterable, List, Optional
from pydantic import BaseModel
from langchain.schema import BaseRetriever, Document
[docs]class TFIDFRetriever(BaseRetriever, BaseModel):
vectorizer: Any
docs: List[Document]
tfidf_array: Any
k: int = 4
class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
[docs] @classmethod
def from_texts(
cls,
texts: Iterable[str],
metadatas: Optional[Iterable[dict]] = None,
tfidf_params: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> TFIDFRetriever:
try:
from sklearn.feature_extraction.text import TfidfVectorizer
except ImportError:
raise ImportError(
"Could not import scikit-learn, please install with `pip install "
"scikit-learn`."
)
tfidf_params = tfidf_params or {}
vectorizer = TfidfVectorizer(**tfidf_params)
tfidf_array = vectorizer.fit_transform(texts)
metadatas = metadatas or ({} for _ in texts)
docs = [Document(page_content=t, metadata=m) for t, m in zip(texts, metadatas)] |
201b1860581d-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/tfidf.html | return cls(vectorizer=vectorizer, docs=docs, tfidf_array=tfidf_array, **kwargs)
[docs] @classmethod
def from_documents(
cls,
documents: Iterable[Document],
*,
tfidf_params: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> TFIDFRetriever:
texts, metadatas = zip(*((d.page_content, d.metadata) for d in documents))
return cls.from_texts(
texts=texts, tfidf_params=tfidf_params, metadatas=metadatas, **kwargs
)
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
from sklearn.metrics.pairwise import cosine_similarity
query_vec = self.vectorizer.transform(
[query]
) # Ip -- (n_docs,x), Op -- (n_docs,n_Feats)
results = cosine_similarity(self.tfidf_array, query_vec).reshape(
(-1,)
) # Op -- (n_docs,1) -- Cosine Sim with each doc
return_docs = [self.docs[i] for i in results.argsort()[-self.k :][::-1]]
return return_docs
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
9609b1978748-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/svm.html | Source code for langchain.retrievers.svm
"""SMV Retriever.
Largely based on
https://github.com/karpathy/randomfun/blob/master/knn_vs_svm.ipynb"""
from __future__ import annotations
import concurrent.futures
from typing import Any, List, Optional
import numpy as np
from pydantic import BaseModel
from langchain.embeddings.base import Embeddings
from langchain.schema import BaseRetriever, Document
def create_index(contexts: List[str], embeddings: Embeddings) -> np.ndarray:
with concurrent.futures.ThreadPoolExecutor() as executor:
return np.array(list(executor.map(embeddings.embed_query, contexts)))
[docs]class SVMRetriever(BaseRetriever, BaseModel):
embeddings: Embeddings
index: Any
texts: List[str]
k: int = 4
relevancy_threshold: Optional[float] = None
class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
[docs] @classmethod
def from_texts(
cls, texts: List[str], embeddings: Embeddings, **kwargs: Any
) -> SVMRetriever:
index = create_index(texts, embeddings)
return cls(embeddings=embeddings, index=index, texts=texts, **kwargs)
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
from sklearn import svm
query_embeds = np.array(self.embeddings.embed_query(query))
x = np.concatenate([query_embeds[None, ...], self.index])
y = np.zeros(x.shape[0])
y[0] = 1
clf = svm.LinearSVC( |
9609b1978748-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/svm.html | y[0] = 1
clf = svm.LinearSVC(
class_weight="balanced", verbose=False, max_iter=10000, tol=1e-6, C=0.1
)
clf.fit(x, y)
similarities = clf.decision_function(x)
sorted_ix = np.argsort(-similarities)
# svm.LinearSVC in scikit-learn is non-deterministic.
# if a text is the same as a query, there is no guarantee
# the query will be in the first index.
# this performs a simple swap, this works because anything
# left of the 0 should be equivalent.
zero_index = np.where(sorted_ix == 0)[0][0]
if zero_index != 0:
sorted_ix[0], sorted_ix[zero_index] = sorted_ix[zero_index], sorted_ix[0]
denominator = np.max(similarities) - np.min(similarities) + 1e-6
normalized_similarities = (similarities - np.min(similarities)) / denominator
top_k_results = []
for row in sorted_ix[1 : self.k + 1]:
if (
self.relevancy_threshold is None
or normalized_similarities[row] >= self.relevancy_threshold
):
top_k_results.append(Document(page_content=self.texts[row - 1]))
return top_k_results
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
2d1d5ba6206e-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/wikipedia.html | Source code for langchain.retrievers.wikipedia
from typing import List
from langchain.schema import BaseRetriever, Document
from langchain.utilities.wikipedia import WikipediaAPIWrapper
[docs]class WikipediaRetriever(BaseRetriever, WikipediaAPIWrapper):
"""
It is effectively a wrapper for WikipediaAPIWrapper.
It wraps load() to get_relevant_documents().
It uses all WikipediaAPIWrapper arguments without any change.
"""
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
return self.load(query=query)
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
f1d28ed7cdc9-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/azure_cognitive_search.html | Source code for langchain.retrievers.azure_cognitive_search
"""Retriever wrapper for Azure Cognitive Search."""
from __future__ import annotations
import json
from typing import Dict, List, Optional
import aiohttp
import requests
from pydantic import BaseModel, Extra, root_validator
from langchain.schema import BaseRetriever, Document
from langchain.utils import get_from_dict_or_env
[docs]class AzureCognitiveSearchRetriever(BaseRetriever, BaseModel):
"""Wrapper around Azure Cognitive Search."""
service_name: str = ""
"""Name of Azure Cognitive Search service"""
index_name: str = ""
"""Name of Index inside Azure Cognitive Search service"""
api_key: str = ""
"""API Key. Both Admin and Query keys work, but for reading data it's
recommended to use a Query key."""
api_version: str = "2020-06-30"
"""API version"""
aiosession: Optional[aiohttp.ClientSession] = None
"""ClientSession, in case we want to reuse connection for better performance."""
content_key: str = "content"
"""Key in a retrieved result to set as the Document page_content."""
class Config:
extra = Extra.forbid
arbitrary_types_allowed = True
@root_validator(pre=True)
def validate_environment(cls, values: Dict) -> Dict:
"""Validate that service name, index name and api key exists in environment."""
values["service_name"] = get_from_dict_or_env(
values, "service_name", "AZURE_COGNITIVE_SEARCH_SERVICE_NAME"
)
values["index_name"] = get_from_dict_or_env(
values, "index_name", "AZURE_COGNITIVE_SEARCH_INDEX_NAME"
) |
f1d28ed7cdc9-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/azure_cognitive_search.html | )
values["api_key"] = get_from_dict_or_env(
values, "api_key", "AZURE_COGNITIVE_SEARCH_API_KEY"
)
return values
def _build_search_url(self, query: str) -> str:
base_url = f"https://{self.service_name}.search.windows.net/"
endpoint_path = f"indexes/{self.index_name}/docs?api-version={self.api_version}"
return base_url + endpoint_path + f"&search={query}"
@property
def _headers(self) -> Dict[str, str]:
return {
"Content-Type": "application/json",
"api-key": self.api_key,
}
def _search(self, query: str) -> List[dict]:
search_url = self._build_search_url(query)
response = requests.get(search_url, headers=self._headers)
if response.status_code != 200:
raise Exception(f"Error in search request: {response}")
return json.loads(response.text)["value"]
async def _asearch(self, query: str) -> List[dict]:
search_url = self._build_search_url(query)
if not self.aiosession:
async with aiohttp.ClientSession() as session:
async with session.get(search_url, headers=self._headers) as response:
response_json = await response.json()
else:
async with self.aiosession.get(
search_url, headers=self._headers
) as response:
response_json = await response.json()
return response_json["value"]
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
search_results = self._search(query)
return [ |
f1d28ed7cdc9-2 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/azure_cognitive_search.html | search_results = self._search(query)
return [
Document(page_content=result.pop(self.content_key), metadata=result)
for result in search_results
]
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
search_results = await self._asearch(query)
return [
Document(page_content=result.pop(self.content_key), metadata=result)
for result in search_results
]
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
cc6149797840-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/elastic_search_bm25.html | Source code for langchain.retrievers.elastic_search_bm25
"""Wrapper around Elasticsearch vector database."""
from __future__ import annotations
import uuid
from typing import Any, Iterable, List
from langchain.docstore.document import Document
from langchain.schema import BaseRetriever
[docs]class ElasticSearchBM25Retriever(BaseRetriever):
"""Wrapper around Elasticsearch using BM25 as a retrieval method.
To connect to an Elasticsearch instance that requires login credentials,
including Elastic Cloud, use the Elasticsearch URL format
https://username:password@es_host:9243. For example, to connect to Elastic
Cloud, create the Elasticsearch URL with the required authentication details and
pass it to the ElasticVectorSearch constructor as the named parameter
elasticsearch_url.
You can obtain your Elastic Cloud URL and login credentials by logging in to the
Elastic Cloud console at https://cloud.elastic.co, selecting your deployment, and
navigating to the "Deployments" page.
To obtain your Elastic Cloud password for the default "elastic" user:
1. Log in to the Elastic Cloud console at https://cloud.elastic.co
2. Go to "Security" > "Users"
3. Locate the "elastic" user and click "Edit"
4. Click "Reset password"
5. Follow the prompts to reset the password
The format for Elastic Cloud URLs is
https://username:password@cluster_id.region_id.gcp.cloud.es.io:9243.
"""
def __init__(self, client: Any, index_name: str):
self.client = client
self.index_name = index_name
[docs] @classmethod
def create( |
cc6149797840-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/elastic_search_bm25.html | self.index_name = index_name
[docs] @classmethod
def create(
cls, elasticsearch_url: str, index_name: str, k1: float = 2.0, b: float = 0.75
) -> ElasticSearchBM25Retriever:
from elasticsearch import Elasticsearch
# Create an Elasticsearch client instance
es = Elasticsearch(elasticsearch_url)
# Define the index settings and mappings
settings = {
"analysis": {"analyzer": {"default": {"type": "standard"}}},
"similarity": {
"custom_bm25": {
"type": "BM25",
"k1": k1,
"b": b,
}
},
}
mappings = {
"properties": {
"content": {
"type": "text",
"similarity": "custom_bm25", # Use the custom BM25 similarity
}
}
}
# Create the index with the specified settings and mappings
es.indices.create(index=index_name, mappings=mappings, settings=settings)
return cls(es, index_name)
[docs] def add_texts(
self,
texts: Iterable[str],
refresh_indices: bool = True,
) -> List[str]:
"""Run more texts through the embeddings and add to the retriver.
Args:
texts: Iterable of strings to add to the retriever.
refresh_indices: bool to refresh ElasticSearch indices
Returns:
List of ids from adding the texts into the retriever.
"""
try:
from elasticsearch.helpers import bulk
except ImportError:
raise ValueError(
"Could not import elasticsearch python package. " |
cc6149797840-2 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/elastic_search_bm25.html | raise ValueError(
"Could not import elasticsearch python package. "
"Please install it with `pip install elasticsearch`."
)
requests = []
ids = []
for i, text in enumerate(texts):
_id = str(uuid.uuid4())
request = {
"_op_type": "index",
"_index": self.index_name,
"content": text,
"_id": _id,
}
ids.append(_id)
requests.append(request)
bulk(self.client, requests)
if refresh_indices:
self.client.indices.refresh(index=self.index_name)
return ids
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
query_dict = {"query": {"match": {"content": query}}}
res = self.client.search(index=self.index_name, body=query_dict)
docs = []
for r in res["hits"]["hits"]:
docs.append(Document(page_content=r["_source"]["content"]))
return docs
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
1c11398839a4-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/knn.html | Source code for langchain.retrievers.knn
"""KNN Retriever.
Largely based on
https://github.com/karpathy/randomfun/blob/master/knn_vs_svm.ipynb"""
from __future__ import annotations
import concurrent.futures
from typing import Any, List, Optional
import numpy as np
from pydantic import BaseModel
from langchain.embeddings.base import Embeddings
from langchain.schema import BaseRetriever, Document
def create_index(contexts: List[str], embeddings: Embeddings) -> np.ndarray:
with concurrent.futures.ThreadPoolExecutor() as executor:
return np.array(list(executor.map(embeddings.embed_query, contexts)))
[docs]class KNNRetriever(BaseRetriever, BaseModel):
embeddings: Embeddings
index: Any
texts: List[str]
k: int = 4
relevancy_threshold: Optional[float] = None
class Config:
"""Configuration for this pydantic object."""
arbitrary_types_allowed = True
[docs] @classmethod
def from_texts(
cls, texts: List[str], embeddings: Embeddings, **kwargs: Any
) -> KNNRetriever:
index = create_index(texts, embeddings)
return cls(embeddings=embeddings, index=index, texts=texts, **kwargs)
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
query_embeds = np.array(self.embeddings.embed_query(query))
# calc L2 norm
index_embeds = self.index / np.sqrt((self.index**2).sum(1, keepdims=True))
query_embeds = query_embeds / np.sqrt((query_embeds**2).sum())
similarities = index_embeds.dot(query_embeds) |
1c11398839a4-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/knn.html | similarities = index_embeds.dot(query_embeds)
sorted_ix = np.argsort(-similarities)
denominator = np.max(similarities) - np.min(similarities) + 1e-6
normalized_similarities = (similarities - np.min(similarities)) / denominator
top_k_results = [
Document(page_content=self.texts[row])
for row in sorted_ix[0 : self.k]
if (
self.relevancy_threshold is None
or normalized_similarities[row] >= self.relevancy_threshold
)
]
return top_k_results
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
raise NotImplementedError
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
8384640b870b-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/remote_retriever.html | Source code for langchain.retrievers.remote_retriever
from typing import List, Optional
import aiohttp
import requests
from pydantic import BaseModel
from langchain.schema import BaseRetriever, Document
[docs]class RemoteLangChainRetriever(BaseRetriever, BaseModel):
url: str
headers: Optional[dict] = None
input_key: str = "message"
response_key: str = "response"
page_content_key: str = "page_content"
metadata_key: str = "metadata"
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
response = requests.post(
self.url, json={self.input_key: query}, headers=self.headers
)
result = response.json()
return [
Document(
page_content=r[self.page_content_key], metadata=r[self.metadata_key]
)
for r in result[self.response_key]
]
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
async with aiohttp.ClientSession() as session:
async with session.request(
"POST", self.url, headers=self.headers, json={self.input_key: query}
) as response:
result = await response.json()
return [
Document(
page_content=r[self.page_content_key], metadata=r[self.metadata_key]
)
for r in result[self.response_key]
]
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
c29bc501ba66-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/zep.html | Source code for langchain.retrievers.zep
from __future__ import annotations
from typing import TYPE_CHECKING, List, Optional
from langchain.schema import BaseRetriever, Document
if TYPE_CHECKING:
from zep_python import SearchResult
[docs]class ZepRetriever(BaseRetriever):
"""A Retriever implementation for the Zep long-term memory store. Search your
user's long-term chat history with Zep.
Note: You will need to provide the user's `session_id` to use this retriever.
More on Zep:
Zep provides long-term conversation storage for LLM apps. The server stores,
summarizes, embeds, indexes, and enriches conversational AI chat
histories, and exposes them via simple, low-latency APIs.
For server installation instructions, see:
https://getzep.github.io/deployment/quickstart/
"""
def __init__(
self,
session_id: str,
url: str,
top_k: Optional[int] = None,
):
try:
from zep_python import ZepClient
except ImportError:
raise ValueError(
"Could not import zep-python package. "
"Please install it with `pip install zep-python`."
)
self.zep_client = ZepClient(base_url=url)
self.session_id = session_id
self.top_k = top_k
def _search_result_to_doc(self, results: List[SearchResult]) -> List[Document]:
return [
Document(
page_content=r.message.pop("content"),
metadata={"score": r.dist, **r.message},
)
for r in results
if r.message
] |
c29bc501ba66-1 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/zep.html | )
for r in results
if r.message
]
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
from zep_python import SearchPayload
payload: SearchPayload = SearchPayload(text=query)
results: List[SearchResult] = self.zep_client.search_memory(
self.session_id, payload, limit=self.top_k
)
return self._search_result_to_doc(results)
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
from zep_python import SearchPayload
payload: SearchPayload = SearchPayload(text=query)
results: List[SearchResult] = await self.zep_client.asearch_memory(
self.session_id, payload, limit=self.top_k
)
return self._search_result_to_doc(results)
By Harrison Chase
© Copyright 2023, Harrison Chase.
Last updated on Jun 05, 2023. |
dae821d330e4-0 | https://python.langchain.com/en/latest/_modules/langchain/retrievers/contextual_compression.html | Source code for langchain.retrievers.contextual_compression
"""Retriever that wraps a base retriever and filters the results."""
from typing import List
from pydantic import BaseModel, Extra
from langchain.retrievers.document_compressors.base import (
BaseDocumentCompressor,
)
from langchain.schema import BaseRetriever, Document
[docs]class ContextualCompressionRetriever(BaseRetriever, BaseModel):
"""Retriever that wraps a base retriever and compresses the results."""
base_compressor: BaseDocumentCompressor
"""Compressor for compressing retrieved documents."""
base_retriever: BaseRetriever
"""Base Retriever to use for getting relevant documents."""
class Config:
"""Configuration for this pydantic object."""
extra = Extra.forbid
arbitrary_types_allowed = True
[docs] def get_relevant_documents(self, query: str) -> List[Document]:
"""Get documents relevant for a query.
Args:
query: string to find relevant documents for
Returns:
Sequence of relevant documents
"""
docs = self.base_retriever.get_relevant_documents(query)
compressed_docs = self.base_compressor.compress_documents(docs, query)
return list(compressed_docs)
[docs] async def aget_relevant_documents(self, query: str) -> List[Document]:
"""Get documents relevant for a query.
Args:
query: string to find relevant documents for
Returns:
List of relevant documents
"""
docs = await self.base_retriever.aget_relevant_documents(query)
compressed_docs = await self.base_compressor.acompress_documents(docs, query)
return list(compressed_docs)
By Harrison Chase |