Sangmin/langchain-docs · Datasets at Hugging Face

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79716c54d732-0	.md .pdf SearxNG Search API Contents Installation and Setup Self Hosted Instance: Wrappers Utility Tool SearxNG Search API# This page covers how to use the SearxNG search API within LangChain. It is broken into two parts: installation and setup, and then references to the specific SearxNG API wrapper. Installation and Setup# While it is possible to utilize the wrapper in conjunction with public searx instances these instances frequently do not permit API access (see note on output format below) and have limitations on the frequency of requests. It is recommended to opt for a self-hosted instance instead. Self Hosted Instance:# See this page for installation instructions. When you install SearxNG, the only active output format by default is the HTML format. You need to activate the json format to use the API. This can be done by adding the following line to the settings.yml file: search: formats: - html - json You can make sure that the API is working by issuing a curl request to the API endpoint: curl -kLX GET --data-urlencode q='langchain' -d format=json http://localhost:8888 This should return a JSON object with the results. Wrappers# Utility# To use the wrapper we need to pass the host of the SearxNG instance to the wrapper with: 1. the named parameter searx_host when creating the instance. 2. exporting the environment variable SEARXNG_HOST. You can use the wrapper to get results from a SearxNG instance. from langchain.utilities import SearxSearchWrapper s = SearxSearchWrapper(searx_host="http://localhost:8888") s.run("what is a large language model?")	https://python.langchain.com/en/latest/integrations/searx.html
79716c54d732-1	s.run("what is a large language model?") Tool# You can also load this wrapper as a Tool (to use with an Agent). You can do this with: from langchain.agents import load_tools tools = load_tools(["searx-search"], searx_host="http://localhost:8888", engines=["github"]) Note that we could optionally pass custom engines to use. If you want to obtain results with metadata as json you can use: tools = load_tools(["searx-search-results-json"], searx_host="http://localhost:8888", num_results=5) For more information on tools, see this page previous RWKV-4 next SerpAPI Contents Installation and Setup Self Hosted Instance: Wrappers Utility Tool By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/searx.html
0b85be0781f0-0	.md .pdf Yeager.ai Contents What is Yeager.ai? yAgents How to use? Creating and Executing Tools with yAgents Yeager.ai# This page covers how to use Yeager.ai to generate LangChain tools and agents. What is Yeager.ai?# Yeager.ai is an ecosystem designed to simplify the process of creating AI agents and tools. It features yAgents, a No-code LangChain Agent Builder, which enables users to build, test, and deploy AI solutions with ease. Leveraging the LangChain framework, yAgents allows seamless integration with various language models and resources, making it suitable for developers, researchers, and AI enthusiasts across diverse applications. yAgents# Low code generative agent designed to help you build, prototype, and deploy Langchain tools with ease. How to use?# pip install yeagerai-agent yeagerai-agent Go to http://127.0.0.1:7860 This will install the necessary dependencies and set up yAgents on your system. After the first run, yAgents will create a .env file where you can input your OpenAI API key. You can do the same directly from the Gradio interface under the tab “Settings”. OPENAI_API_KEY=<your_openai_api_key_here> We recommend using GPT-4,. However, the tool can also work with GPT-3 if the problem is broken down sufficiently. Creating and Executing Tools with yAgents# yAgents makes it easy to create and execute AI-powered tools. Here’s a brief overview of the process: Create a tool: To create a tool, provide a natural language prompt to yAgents. The prompt should clearly describe the tool’s purpose and functionality. For example: create a tool that returns the n-th prime number	https://python.langchain.com/en/latest/integrations/yeagerai.html
0b85be0781f0-1	create a tool that returns the n-th prime number Load the tool into the toolkit: To load a tool into yAgents, simply provide a command to yAgents that says so. For example: load the tool that you just created it into your toolkit Execute the tool: To run a tool or agent, simply provide a command to yAgents that includes the name of the tool and any required parameters. For example: generate the 50th prime number You can see a video of how it works here. As you become more familiar with yAgents, you can create more advanced tools and agents to automate your work and enhance your productivity. For more information, see yAgents’ Github or our docs previous Writer next Zilliz Contents What is Yeager.ai? yAgents How to use? Creating and Executing Tools with yAgents By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/yeagerai.html
107b2d33c11a-0	.md .pdf PipelineAI Contents Installation and Setup Wrappers LLM PipelineAI# This page covers how to use the PipelineAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific PipelineAI wrappers. Installation and Setup# Install with pip install pipeline-ai Get a Pipeline Cloud api key and set it as an environment variable (PIPELINE_API_KEY) Wrappers# LLM# There exists a PipelineAI LLM wrapper, which you can access with from langchain.llms import PipelineAI previous Pinecone next Prediction Guard Contents Installation and Setup Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/pipelineai.html
da618c5552d1-0	.md .pdf Llama.cpp Contents Installation and Setup Wrappers LLM Embeddings Llama.cpp# This page covers how to use llama.cpp within LangChain. It is broken into two parts: installation and setup, and then references to specific Llama-cpp wrappers. Installation and Setup# Install the Python package with pip install llama-cpp-python Download one of the supported models and convert them to the llama.cpp format per the instructions Wrappers# LLM# There exists a LlamaCpp LLM wrapper, which you can access with from langchain.llms import LlamaCpp For a more detailed walkthrough of this, see this notebook Embeddings# There exists a LlamaCpp Embeddings wrapper, which you can access with from langchain.embeddings import LlamaCppEmbeddings For a more detailed walkthrough of this, see this notebook previous LanceDB next Metal Contents Installation and Setup Wrappers LLM Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/llamacpp.html
70e2499df5e7-0	.md .pdf Pinecone Contents Installation and Setup Wrappers VectorStore Pinecone# This page covers how to use the Pinecone ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Pinecone wrappers. Installation and Setup# Install the Python SDK with pip install pinecone-client Wrappers# VectorStore# There exists a wrapper around Pinecone indexes, allowing you to use it as a vectorstore, whether for semantic search or example selection. To import this vectorstore: from langchain.vectorstores import Pinecone For a more detailed walkthrough of the Pinecone wrapper, see this notebook previous PGVector next PipelineAI Contents Installation and Setup Wrappers VectorStore By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/pinecone.html
bc31d640c2f3-0	.md .pdf Runhouse Contents Installation and Setup Self-hosted LLMs Self-hosted Embeddings Runhouse# This page covers how to use the Runhouse ecosystem within LangChain. It is broken into three parts: installation and setup, LLMs, and Embeddings. Installation and Setup# Install the Python SDK with pip install runhouse If you’d like to use on-demand cluster, check your cloud credentials with sky check Self-hosted LLMs# For a basic self-hosted LLM, you can use the SelfHostedHuggingFaceLLM class. For more custom LLMs, you can use the SelfHostedPipeline parent class. from langchain.llms import SelfHostedPipeline, SelfHostedHuggingFaceLLM For a more detailed walkthrough of the Self-hosted LLMs, see this notebook Self-hosted Embeddings# There are several ways to use self-hosted embeddings with LangChain via Runhouse. For a basic self-hosted embedding from a Hugging Face Transformers model, you can use the SelfHostedEmbedding class. from langchain.llms import SelfHostedPipeline, SelfHostedHuggingFaceLLM For a more detailed walkthrough of the Self-hosted Embeddings, see this notebook previous Replicate next RWKV-4 Contents Installation and Setup Self-hosted LLMs Self-hosted Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/runhouse.html
cb9a4a58c64c-0	.ipynb .pdf Comet Contents Install Comet and Dependencies Initialize Comet and Set your Credentials Set OpenAI and SerpAPI credentials Scenario 1: Using just an LLM Scenario 2: Using an LLM in a Chain Scenario 3: Using An Agent with Tools Scenario 4: Using Custom Evaluation Metrics Comet# In this guide we will demonstrate how to track your Langchain Experiments, Evaluation Metrics, and LLM Sessions with Comet. Example Project: Comet with LangChain Install Comet and Dependencies# %pip install comet_ml langchain openai google-search-results spacy textstat pandas import sys !{sys.executable} -m spacy download en_core_web_sm Initialize Comet and Set your Credentials# You can grab your Comet API Key here or click the link after initializing Comet import comet_ml comet_ml.init(project_name="comet-example-langchain") Set OpenAI and SerpAPI credentials# You will need an OpenAI API Key and a SerpAPI API Key to run the following examples import os os.environ["OPENAI_API_KEY"] = "..." #os.environ["OPENAI_ORGANIZATION"] = "..." os.environ["SERPAPI_API_KEY"] = "..." Scenario 1: Using just an LLM# from datetime import datetime from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=True, stream_logs=True, tags=["llm"], visualizations=["dep"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks, verbose=True)	https://python.langchain.com/en/latest/integrations/comet_tracking.html
cb9a4a58c64c-1	llm = OpenAI(temperature=0.9, callbacks=callbacks, verbose=True) llm_result = llm.generate(["Tell me a joke", "Tell me a poem", "Tell me a fact"] * 3) print("LLM result", llm_result) comet_callback.flush_tracker(llm, finish=True) Scenario 2: Using an LLM in a Chain# from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.chains import LLMChain from langchain.llms import OpenAI from langchain.prompts import PromptTemplate comet_callback = CometCallbackHandler( complexity_metrics=True, project_name="comet-example-langchain", stream_logs=True, tags=["synopsis-chain"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks) template = """You are a playwright. Given the title of play, it is your job to write a synopsis for that title. Title: {title} Playwright: This is a synopsis for the above play:""" prompt_template = PromptTemplate(input_variables=["title"], template=template) synopsis_chain = LLMChain(llm=llm, prompt=prompt_template, callbacks=callbacks) test_prompts = [{"title": "Documentary about Bigfoot in Paris"}] print(synopsis_chain.apply(test_prompts)) comet_callback.flush_tracker(synopsis_chain, finish=True) Scenario 3: Using An Agent with Tools# from langchain.agents import initialize_agent, load_tools from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=True,	https://python.langchain.com/en/latest/integrations/comet_tracking.html
cb9a4a58c64c-2	project_name="comet-example-langchain", complexity_metrics=True, stream_logs=True, tags=["agent"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks) tools = load_tools(["serpapi", "llm-math"], llm=llm, callbacks=callbacks) agent = initialize_agent( tools, llm, agent="zero-shot-react-description", callbacks=callbacks, verbose=True, ) agent.run( "Who is Leo DiCaprio's girlfriend? What is her current age raised to the 0.43 power?" ) comet_callback.flush_tracker(agent, finish=True) Scenario 4: Using Custom Evaluation Metrics# The CometCallbackManager also allows you to define and use Custom Evaluation Metrics to assess generated outputs from your model. Let’s take a look at how this works. In the snippet below, we will use the ROUGE metric to evaluate the quality of a generated summary of an input prompt. %pip install rouge-score from rouge_score import rouge_scorer from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.chains import LLMChain from langchain.llms import OpenAI from langchain.prompts import PromptTemplate class Rouge: def __init__(self, reference): self.reference = reference self.scorer = rouge_scorer.RougeScorer(["rougeLsum"], use_stemmer=True) def compute_metric(self, generation, prompt_idx, gen_idx): prediction = generation.text results = self.scorer.score(target=self.reference, prediction=prediction) return {	https://python.langchain.com/en/latest/integrations/comet_tracking.html
cb9a4a58c64c-3	return { "rougeLsum_score": results["rougeLsum"].fmeasure, "reference": self.reference, } reference = """ The tower is 324 metres (1,063 ft) tall, about the same height as an 81-storey building. It was the first structure to reach a height of 300 metres. It is now taller than the Chrysler Building in New York City by 5.2 metres (17 ft) Excluding transmitters, the Eiffel Tower is the second tallest free-standing structure in France . """ rouge_score = Rouge(reference=reference) template = """Given the following article, it is your job to write a summary. Article: {article} Summary: This is the summary for the above article:""" prompt_template = PromptTemplate(input_variables=["article"], template=template) comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=False, stream_logs=True, tags=["custom_metrics"], custom_metrics=rouge_score.compute_metric, ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9) synopsis_chain = LLMChain(llm=llm, prompt=prompt_template) test_prompts = [ { "article": """ The tower is 324 metres (1,063 ft) tall, about the same height as an 81-storey building, and the tallest structure in Paris. Its base is square, measuring 125 metres (410 ft) on each side. During its construction, the Eiffel Tower surpassed the Washington Monument to become the tallest man-made structure in the world, a title it held for 41 years until the Chrysler Building	https://python.langchain.com/en/latest/integrations/comet_tracking.html
cb9a4a58c64c-4	a title it held for 41 years until the Chrysler Building in New York City was finished in 1930. It was the first structure to reach a height of 300 metres. Due to the addition of a broadcasting aerial at the top of the tower in 1957, it is now taller than the Chrysler Building by 5.2 metres (17 ft). Excluding transmitters, the Eiffel Tower is the second tallest free-standing structure in France after the Millau Viaduct. """ } ] print(synopsis_chain.apply(test_prompts, callbacks=callbacks)) comet_callback.flush_tracker(synopsis_chain, finish=True) previous Cohere next C Transformers Contents Install Comet and Dependencies Initialize Comet and Set your Credentials Set OpenAI and SerpAPI credentials Scenario 1: Using just an LLM Scenario 2: Using an LLM in a Chain Scenario 3: Using An Agent with Tools Scenario 4: Using Custom Evaluation Metrics By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/comet_tracking.html
08100cbfa34c-0	.md .pdf GooseAI Contents Installation and Setup Wrappers LLM GooseAI# This page covers how to use the GooseAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific GooseAI wrappers. Installation and Setup# Install the Python SDK with pip install openai Get your GooseAI api key from this link here. Set the environment variable (GOOSEAI_API_KEY). import os os.environ["GOOSEAI_API_KEY"] = "YOUR_API_KEY" Wrappers# LLM# There exists an GooseAI LLM wrapper, which you can access with: from langchain.llms import GooseAI previous Google Serper next GPT4All Contents Installation and Setup Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/gooseai.html
204e616f7c32-0	.md .pdf MyScale Contents Introduction Installation and Setup Setting up envrionments Wrappers VectorStore MyScale# This page covers how to use MyScale vector database within LangChain. It is broken into two parts: installation and setup, and then references to specific MyScale wrappers. With MyScale, you can manage both structured and unstructured (vectorized) data, and perform joint queries and analytics on both types of data using SQL. Plus, MyScale’s cloud-native OLAP architecture, built on top of ClickHouse, enables lightning-fast data processing even on massive datasets. Introduction# Overview to MyScale and High performance vector search You can now register on our SaaS and start a cluster now! If you are also interested in how we managed to integrate SQL and vector, please refer to this document for further syntax reference. We also deliver with live demo on huggingface! Please checkout our huggingface space! They search millions of vector within a blink! Installation and Setup# Install the Python SDK with pip install clickhouse-connect Setting up envrionments# There are two ways to set up parameters for myscale index. Environment Variables Before you run the app, please set the environment variable with export: export MYSCALE_URL='<your-endpoints-url>' MYSCALE_PORT=<your-endpoints-port> MYSCALE_USERNAME=<your-username> MYSCALE_PASSWORD=<your-password> ... You can easily find your account, password and other info on our SaaS. For details please refer to this document Every attributes under MyScaleSettings can be set with prefix MYSCALE_ and is case insensitive. Create MyScaleSettings object with parameters from langchain.vectorstores import MyScale, MyScaleSettings config = MyScaleSetting(host="<your-backend-url>", port=8443, ...) index = MyScale(embedding_function, config)	https://python.langchain.com/en/latest/integrations/myscale.html
204e616f7c32-1	index = MyScale(embedding_function, config) index.add_documents(...) Wrappers# supported functions: add_texts add_documents from_texts from_documents similarity_search asimilarity_search similarity_search_by_vector asimilarity_search_by_vector similarity_search_with_relevance_scores VectorStore# There exists a wrapper around MyScale database, allowing you to use it as a vectorstore, whether for semantic search or similar example retrieval. To import this vectorstore: from langchain.vectorstores import MyScale For a more detailed walkthrough of the MyScale wrapper, see this notebook previous Momento next NLPCloud Contents Introduction Installation and Setup Setting up envrionments Wrappers VectorStore By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/myscale.html
d41116fc63c2-0	.md .pdf Modal Contents Installation and Setup Define your Modal Functions and Webhooks Wrappers LLM Modal# This page covers how to use the Modal ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Modal wrappers. Installation and Setup# Install with pip install modal-client Run modal token new Define your Modal Functions and Webhooks# You must include a prompt. There is a rigid response structure. class Item(BaseModel): prompt: str @stub.webhook(method="POST") def my_webhook(item: Item): return {"prompt": my_function.call(item.prompt)} An example with GPT2: from pydantic import BaseModel import modal stub = modal.Stub("example-get-started") volume = modal.SharedVolume().persist("gpt2_model_vol") CACHE_PATH = "/root/model_cache" @stub.function( gpu="any", image=modal.Image.debian_slim().pip_install( "tokenizers", "transformers", "torch", "accelerate" ), shared_volumes={CACHE_PATH: volume}, retries=3, ) def run_gpt2(text: str): from transformers import GPT2Tokenizer, GPT2LMHeadModel tokenizer = GPT2Tokenizer.from_pretrained('gpt2') model = GPT2LMHeadModel.from_pretrained('gpt2') encoded_input = tokenizer(text, return_tensors='pt').input_ids output = model.generate(encoded_input, max_length=50, do_sample=True) return tokenizer.decode(output[0], skip_special_tokens=True) class Item(BaseModel): prompt: str @stub.webhook(method="POST") def get_text(item: Item):	https://python.langchain.com/en/latest/integrations/modal.html
d41116fc63c2-1	@stub.webhook(method="POST") def get_text(item: Item): return {"prompt": run_gpt2.call(item.prompt)} Wrappers# LLM# There exists an Modal LLM wrapper, which you can access with from langchain.llms import Modal previous MLflow next Momento Contents Installation and Setup Define your Modal Functions and Webhooks Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/modal.html
41f52287b5ee-0	.md .pdf Jina Contents Installation and Setup Wrappers Embeddings Jina# This page covers how to use the Jina ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Jina wrappers. Installation and Setup# Install the Python SDK with pip install jina Get a Jina AI Cloud auth token from here and set it as an environment variable (JINA_AUTH_TOKEN) Wrappers# Embeddings# There exists a Jina Embeddings wrapper, which you can access with from langchain.embeddings import JinaEmbeddings For a more detailed walkthrough of this, see this notebook previous Hugging Face next LanceDB Contents Installation and Setup Wrappers Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/jina.html
3fe2ed49bcce-0	.md .pdf C Transformers Contents Installation and Setup Wrappers LLM C Transformers# This page covers how to use the C Transformers library within LangChain. It is broken into two parts: installation and setup, and then references to specific C Transformers wrappers. Installation and Setup# Install the Python package with pip install ctransformers Download a supported GGML model (see Supported Models) Wrappers# LLM# There exists a CTransformers LLM wrapper, which you can access with: from langchain.llms import CTransformers It provides a unified interface for all models: llm = CTransformers(model='/path/to/ggml-gpt-2.bin', model_type='gpt2') print(llm('AI is going to')) If you are getting illegal instruction error, try using lib='avx' or lib='basic': llm = CTransformers(model='/path/to/ggml-gpt-2.bin', model_type='gpt2', lib='avx') It can be used with models hosted on the Hugging Face Hub: llm = CTransformers(model='marella/gpt-2-ggml') If a model repo has multiple model files (.bin files), specify a model file using: llm = CTransformers(model='marella/gpt-2-ggml', model_file='ggml-model.bin') Additional parameters can be passed using the config parameter: config = {'max_new_tokens': 256, 'repetition_penalty': 1.1} llm = CTransformers(model='marella/gpt-2-ggml', config=config) See Documentation for a list of available parameters. For a more detailed walkthrough of this, see this notebook. previous Comet next Databerry Contents Installation and Setup	https://python.langchain.com/en/latest/integrations/ctransformers.html
3fe2ed49bcce-1	previous Comet next Databerry Contents Installation and Setup Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/ctransformers.html
692caf8223bc-0	.md .pdf Prediction Guard Contents Installation and Setup LLM Wrapper Example usage Prediction Guard# This page covers how to use the Prediction Guard ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Prediction Guard wrappers. Installation and Setup# Install the Python SDK with pip install predictionguard Get an Prediction Guard access token (as described here) and set it as an environment variable (PREDICTIONGUARD_TOKEN) LLM Wrapper# There exists a Prediction Guard LLM wrapper, which you can access with from langchain.llms import PredictionGuard You can provide the name of your Prediction Guard “proxy” as an argument when initializing the LLM: pgllm = PredictionGuard(name="your-text-gen-proxy") Alternatively, you can use Prediction Guard’s default proxy for SOTA LLMs: pgllm = PredictionGuard(name="default-text-gen") You can also provide your access token directly as an argument: pgllm = PredictionGuard(name="default-text-gen", token="<your access token>") Example usage# Basic usage of the LLM wrapper: from langchain.llms import PredictionGuard pgllm = PredictionGuard(name="default-text-gen") pgllm("Tell me a joke") Basic LLM Chaining with the Prediction Guard wrapper: from langchain import PromptTemplate, LLMChain from langchain.llms import PredictionGuard template = """Question: {question} Answer: Let's think step by step.""" prompt = PromptTemplate(template=template, input_variables=["question"]) llm_chain = LLMChain(prompt=prompt, llm=PredictionGuard(name="default-text-gen"), verbose=True) question = "What NFL team won the Super Bowl in the year Justin Beiber was born?" llm_chain.predict(question=question) previous	https://python.langchain.com/en/latest/integrations/predictionguard.html
692caf8223bc-1	llm_chain.predict(question=question) previous PipelineAI next PromptLayer Contents Installation and Setup LLM Wrapper Example usage By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/predictionguard.html
bc157426d21d-0	.md .pdf OpenAI Contents Installation and Setup Wrappers LLM Embeddings Tokenizer Moderation OpenAI# This page covers how to use the OpenAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific OpenAI wrappers. Installation and Setup# Install the Python SDK with pip install openai Get an OpenAI api key and set it as an environment variable (OPENAI_API_KEY) If you want to use OpenAI’s tokenizer (only available for Python 3.9+), install it with pip install tiktoken Wrappers# LLM# There exists an OpenAI LLM wrapper, which you can access with from langchain.llms import OpenAI If you are using a model hosted on Azure, you should use different wrapper for that: from langchain.llms import AzureOpenAI For a more detailed walkthrough of the Azure wrapper, see this notebook Embeddings# There exists an OpenAI Embeddings wrapper, which you can access with from langchain.embeddings import OpenAIEmbeddings For a more detailed walkthrough of this, see this notebook Tokenizer# There are several places you can use the tiktoken tokenizer. By default, it is used to count tokens for OpenAI LLMs. You can also use it to count tokens when splitting documents with from langchain.text_splitter import CharacterTextSplitter CharacterTextSplitter.from_tiktoken_encoder(...) For a more detailed walkthrough of this, see this notebook Moderation# You can also access the OpenAI content moderation endpoint with from langchain.chains import OpenAIModerationChain For a more detailed walkthrough of this, see this notebook previous NLPCloud next OpenSearch Contents Installation and Setup Wrappers LLM Embeddings Tokenizer	https://python.langchain.com/en/latest/integrations/openai.html
bc157426d21d-1	Contents Installation and Setup Wrappers LLM Embeddings Tokenizer Moderation By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/openai.html
017cb9d1421c-0	.ipynb .pdf ClearML Integration Contents Getting API Credentials Setting Up Scenario 1: Just an LLM Scenario 2: Creating an agent with tools Tips and Next Steps ClearML Integration# In order to properly keep track of your langchain experiments and their results, you can enable the ClearML integration. ClearML is an experiment manager that neatly tracks and organizes all your experiment runs. Getting API Credentials# We’ll be using quite some APIs in this notebook, here is a list and where to get them: ClearML: https://app.clear.ml/settings/workspace-configuration OpenAI: https://platform.openai.com/account/api-keys SerpAPI (google search): https://serpapi.com/dashboard import os os.environ["CLEARML_API_ACCESS_KEY"] = "" os.environ["CLEARML_API_SECRET_KEY"] = "" os.environ["OPENAI_API_KEY"] = "" os.environ["SERPAPI_API_KEY"] = "" Setting Up# !pip install clearml !pip install pandas !pip install textstat !pip install spacy !python -m spacy download en_core_web_sm from datetime import datetime from langchain.callbacks import ClearMLCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI # Setup and use the ClearML Callback clearml_callback = ClearMLCallbackHandler( task_type="inference", project_name="langchain_callback_demo", task_name="llm", tags=["test"], # Change the following parameters based on the amount of detail you want tracked visualize=True, complexity_metrics=True, stream_logs=True ) callbacks = [StdOutCallbackHandler(), clearml_callback] # Get the OpenAI model ready to go llm = OpenAI(temperature=0, callbacks=callbacks)	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-1	llm = OpenAI(temperature=0, callbacks=callbacks) The clearml callback is currently in beta and is subject to change based on updates to `langchain`. Please report any issues to https://github.com/allegroai/clearml/issues with the tag `langchain`. Scenario 1: Just an LLM# First, let’s just run a single LLM a few times and capture the resulting prompt-answer conversation in ClearML # SCENARIO 1 - LLM llm_result = llm.generate(["Tell me a joke", "Tell me a poem"] * 3) # After every generation run, use flush to make sure all the metrics # prompts and other output are properly saved separately clearml_callback.flush_tracker(langchain_asset=llm, name="simple_sequential") {'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a joke'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-2	{'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a poem'} {'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a joke'} {'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a poem'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-3	{'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a joke'} {'action': 'on_llm_start', 'name': 'OpenAI', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Tell me a poem'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-4	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nQ: What did the fish say when it hit the wall?\nA: Dam!', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 109.04, 'flesch_kincaid_grade': 1.3, 'smog_index': 0.0, 'coleman_liau_index': -1.24, 'automated_readability_index': 0.3, 'dale_chall_readability_score': 5.5, 'difficult_words': 0, 'linsear_write_formula': 5.5, 'gunning_fog': 5.2, 'text_standard': '5th and 6th grade', 'fernandez_huerta': 133.58, 'szigriszt_pazos': 131.54, 'gutierrez_polini': 62.3, 'crawford': -0.2, 'gulpease_index': 79.8, 'osman': 116.91}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-5	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nRoses are red,\nViolets are blue,\nSugar is sweet,\nAnd so are you.', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 83.66, 'flesch_kincaid_grade': 4.8, 'smog_index': 0.0, 'coleman_liau_index': 3.23, 'automated_readability_index': 3.9, 'dale_chall_readability_score': 6.71, 'difficult_words': 2, 'linsear_write_formula': 6.5, 'gunning_fog': 8.28, 'text_standard': '6th and 7th grade', 'fernandez_huerta': 115.58, 'szigriszt_pazos': 112.37, 'gutierrez_polini': 54.83, 'crawford': 1.4, 'gulpease_index': 72.1, 'osman': 100.17}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-6	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nQ: What did the fish say when it hit the wall?\nA: Dam!', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 109.04, 'flesch_kincaid_grade': 1.3, 'smog_index': 0.0, 'coleman_liau_index': -1.24, 'automated_readability_index': 0.3, 'dale_chall_readability_score': 5.5, 'difficult_words': 0, 'linsear_write_formula': 5.5, 'gunning_fog': 5.2, 'text_standard': '5th and 6th grade', 'fernandez_huerta': 133.58, 'szigriszt_pazos': 131.54, 'gutierrez_polini': 62.3, 'crawford': -0.2, 'gulpease_index': 79.8, 'osman': 116.91}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-7	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nRoses are red,\nViolets are blue,\nSugar is sweet,\nAnd so are you.', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 83.66, 'flesch_kincaid_grade': 4.8, 'smog_index': 0.0, 'coleman_liau_index': 3.23, 'automated_readability_index': 3.9, 'dale_chall_readability_score': 6.71, 'difficult_words': 2, 'linsear_write_formula': 6.5, 'gunning_fog': 8.28, 'text_standard': '6th and 7th grade', 'fernandez_huerta': 115.58, 'szigriszt_pazos': 112.37, 'gutierrez_polini': 54.83, 'crawford': 1.4, 'gulpease_index': 72.1, 'osman': 100.17}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-8	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nQ: What did the fish say when it hit the wall?\nA: Dam!', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 109.04, 'flesch_kincaid_grade': 1.3, 'smog_index': 0.0, 'coleman_liau_index': -1.24, 'automated_readability_index': 0.3, 'dale_chall_readability_score': 5.5, 'difficult_words': 0, 'linsear_write_formula': 5.5, 'gunning_fog': 5.2, 'text_standard': '5th and 6th grade', 'fernandez_huerta': 133.58, 'szigriszt_pazos': 131.54, 'gutierrez_polini': 62.3, 'crawford': -0.2, 'gulpease_index': 79.8, 'osman': 116.91}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-9	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 24, 'token_usage_completion_tokens': 138, 'token_usage_total_tokens': 162, 'model_name': 'text-davinci-003', 'step': 4, 'starts': 2, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 0, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': '\n\nRoses are red,\nViolets are blue,\nSugar is sweet,\nAnd so are you.', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 83.66, 'flesch_kincaid_grade': 4.8, 'smog_index': 0.0, 'coleman_liau_index': 3.23, 'automated_readability_index': 3.9, 'dale_chall_readability_score': 6.71, 'difficult_words': 2, 'linsear_write_formula': 6.5, 'gunning_fog': 8.28, 'text_standard': '6th and 7th grade', 'fernandez_huerta': 115.58, 'szigriszt_pazos': 112.37, 'gutierrez_polini': 54.83, 'crawford': 1.4, 'gulpease_index': 72.1, 'osman': 100.17} {'action_records': action name step starts ends errors text_ctr chain_starts \	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-10	0 on_llm_start OpenAI 1 1 0 0 0 0 1 on_llm_start OpenAI 1 1 0 0 0 0 2 on_llm_start OpenAI 1 1 0 0 0 0 3 on_llm_start OpenAI 1 1 0 0 0 0 4 on_llm_start OpenAI 1 1 0 0 0 0 5 on_llm_start OpenAI 1 1 0 0 0 0 6 on_llm_end NaN 2 1 1 0 0 0 7 on_llm_end NaN 2 1 1 0 0 0 8 on_llm_end NaN 2 1 1 0 0 0 9 on_llm_end NaN 2 1 1 0 0 0 10 on_llm_end NaN 2 1 1 0 0 0 11 on_llm_end NaN 2 1 1 0 0 0 12 on_llm_start OpenAI 3 2 1 0 0 0 13 on_llm_start OpenAI 3 2 1 0 0 0	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-11	14 on_llm_start OpenAI 3 2 1 0 0 0 15 on_llm_start OpenAI 3 2 1 0 0 0 16 on_llm_start OpenAI 3 2 1 0 0 0 17 on_llm_start OpenAI 3 2 1 0 0 0 18 on_llm_end NaN 4 2 2 0 0 0 19 on_llm_end NaN 4 2 2 0 0 0 20 on_llm_end NaN 4 2 2 0 0 0 21 on_llm_end NaN 4 2 2 0 0 0 22 on_llm_end NaN 4 2 2 0 0 0 23 on_llm_end NaN 4 2 2 0 0 0 chain_ends llm_starts ... difficult_words linsear_write_formula \ 0 0 1 ... NaN NaN 1 0 1 ... NaN NaN 2 0 1 ... NaN NaN 3 0 1 ... NaN NaN 4 0 1 ... NaN NaN 5 0 1 ... NaN NaN	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-12	5 0 1 ... NaN NaN 6 0 1 ... 0.0 5.5 7 0 1 ... 2.0 6.5 8 0 1 ... 0.0 5.5 9 0 1 ... 2.0 6.5 10 0 1 ... 0.0 5.5 11 0 1 ... 2.0 6.5 12 0 2 ... NaN NaN 13 0 2 ... NaN NaN 14 0 2 ... NaN NaN 15 0 2 ... NaN NaN 16 0 2 ... NaN NaN 17 0 2 ... NaN NaN 18 0 2 ... 0.0 5.5 19 0 2 ... 2.0 6.5 20 0 2 ... 0.0 5.5 21 0 2 ... 2.0 6.5 22 0 2 ... 0.0 5.5 23 0 2 ... 2.0 6.5 gunning_fog text_standard fernandez_huerta szigriszt_pazos \ 0 NaN NaN NaN NaN	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-13	0 NaN NaN NaN NaN 1 NaN NaN NaN NaN 2 NaN NaN NaN NaN 3 NaN NaN NaN NaN 4 NaN NaN NaN NaN 5 NaN NaN NaN NaN 6 5.20 5th and 6th grade 133.58 131.54 7 8.28 6th and 7th grade 115.58 112.37 8 5.20 5th and 6th grade 133.58 131.54 9 8.28 6th and 7th grade 115.58 112.37 10 5.20 5th and 6th grade 133.58 131.54 11 8.28 6th and 7th grade 115.58 112.37 12 NaN NaN NaN NaN 13 NaN NaN NaN NaN 14 NaN NaN NaN NaN 15 NaN NaN NaN NaN 16 NaN NaN NaN NaN 17 NaN NaN NaN NaN 18 5.20 5th and 6th grade 133.58 131.54 19 8.28 6th and 7th grade 115.58 112.37 20 5.20 5th and 6th grade 133.58 131.54	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-14	21 8.28 6th and 7th grade 115.58 112.37 22 5.20 5th and 6th grade 133.58 131.54 23 8.28 6th and 7th grade 115.58 112.37 gutierrez_polini crawford gulpease_index osman 0 NaN NaN NaN NaN 1 NaN NaN NaN NaN 2 NaN NaN NaN NaN 3 NaN NaN NaN NaN 4 NaN NaN NaN NaN 5 NaN NaN NaN NaN 6 62.30 -0.2 79.8 116.91 7 54.83 1.4 72.1 100.17 8 62.30 -0.2 79.8 116.91 9 54.83 1.4 72.1 100.17 10 62.30 -0.2 79.8 116.91 11 54.83 1.4 72.1 100.17 12 NaN NaN NaN NaN 13 NaN NaN NaN NaN 14 NaN NaN NaN NaN 15 NaN NaN NaN NaN 16 NaN NaN NaN NaN 17 NaN NaN NaN NaN 18 62.30 -0.2 79.8 116.91	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-15	19 54.83 1.4 72.1 100.17 20 62.30 -0.2 79.8 116.91 21 54.83 1.4 72.1 100.17 22 62.30 -0.2 79.8 116.91 23 54.83 1.4 72.1 100.17 [24 rows x 39 columns], 'session_analysis': prompt_step prompts name output_step \ 0 1 Tell me a joke OpenAI 2 1 1 Tell me a poem OpenAI 2 2 1 Tell me a joke OpenAI 2 3 1 Tell me a poem OpenAI 2 4 1 Tell me a joke OpenAI 2 5 1 Tell me a poem OpenAI 2 6 3 Tell me a joke OpenAI 4 7 3 Tell me a poem OpenAI 4 8 3 Tell me a joke OpenAI 4 9 3 Tell me a poem OpenAI 4 10 3 Tell me a joke OpenAI 4 11 3 Tell me a poem OpenAI 4 output \ 0 \n\nQ: What did the fish say when it hit the w... 1 \n\nRoses are red,\nViolets are blue,\nSugar i...	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-16	2 \n\nQ: What did the fish say when it hit the w... 3 \n\nRoses are red,\nViolets are blue,\nSugar i... 4 \n\nQ: What did the fish say when it hit the w... 5 \n\nRoses are red,\nViolets are blue,\nSugar i... 6 \n\nQ: What did the fish say when it hit the w... 7 \n\nRoses are red,\nViolets are blue,\nSugar i... 8 \n\nQ: What did the fish say when it hit the w... 9 \n\nRoses are red,\nViolets are blue,\nSugar i... 10 \n\nQ: What did the fish say when it hit the w... 11 \n\nRoses are red,\nViolets are blue,\nSugar i... token_usage_total_tokens token_usage_prompt_tokens \ 0 162 24 1 162 24 2 162 24 3 162 24 4 162 24 5 162 24 6 162 24 7 162 24 8 162 24 9 162 24 10 162 24 11 162 24 token_usage_completion_tokens flesch_reading_ease flesch_kincaid_grade \ 0 138 109.04 1.3 1 138 83.66 4.8	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-17	1 138 83.66 4.8 2 138 109.04 1.3 3 138 83.66 4.8 4 138 109.04 1.3 5 138 83.66 4.8 6 138 109.04 1.3 7 138 83.66 4.8 8 138 109.04 1.3 9 138 83.66 4.8 10 138 109.04 1.3 11 138 83.66 4.8 ... difficult_words linsear_write_formula gunning_fog \ 0 ... 0 5.5 5.20 1 ... 2 6.5 8.28 2 ... 0 5.5 5.20 3 ... 2 6.5 8.28 4 ... 0 5.5 5.20 5 ... 2 6.5 8.28 6 ... 0 5.5 5.20 7 ... 2 6.5 8.28 8 ... 0 5.5 5.20 9 ... 2 6.5 8.28 10 ... 0 5.5 5.20	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-18	10 ... 0 5.5 5.20 11 ... 2 6.5 8.28 text_standard fernandez_huerta szigriszt_pazos gutierrez_polini \ 0 5th and 6th grade 133.58 131.54 62.30 1 6th and 7th grade 115.58 112.37 54.83 2 5th and 6th grade 133.58 131.54 62.30 3 6th and 7th grade 115.58 112.37 54.83 4 5th and 6th grade 133.58 131.54 62.30 5 6th and 7th grade 115.58 112.37 54.83 6 5th and 6th grade 133.58 131.54 62.30 7 6th and 7th grade 115.58 112.37 54.83 8 5th and 6th grade 133.58 131.54 62.30 9 6th and 7th grade 115.58 112.37 54.83 10 5th and 6th grade 133.58 131.54 62.30 11 6th and 7th grade 115.58 112.37 54.83 crawford gulpease_index osman	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-19	crawford gulpease_index osman 0 -0.2 79.8 116.91 1 1.4 72.1 100.17 2 -0.2 79.8 116.91 3 1.4 72.1 100.17 4 -0.2 79.8 116.91 5 1.4 72.1 100.17 6 -0.2 79.8 116.91 7 1.4 72.1 100.17 8 -0.2 79.8 116.91 9 1.4 72.1 100.17 10 -0.2 79.8 116.91 11 1.4 72.1 100.17 [12 rows x 24 columns]} 2023-03-29 14:00:25,948 - clearml.Task - INFO - Completed model upload to https://files.clear.ml/langchain_callback_demo/llm.988bd727b0e94a29a3ac0ee526813545/models/simple_sequential At this point you can already go to https://app.clear.ml and take a look at the resulting ClearML Task that was created. Among others, you should see that this notebook is saved along with any git information. The model JSON that contains the used parameters is saved as an artifact, there are also console logs and under the plots section, you’ll find tables that represent the flow of the chain. Finally, if you enabled visualizations, these are stored as HTML files under debug samples.	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-20	Finally, if you enabled visualizations, these are stored as HTML files under debug samples. Scenario 2: Creating an agent with tools# To show a more advanced workflow, let’s create an agent with access to tools. The way ClearML tracks the results is not different though, only the table will look slightly different as there are other types of actions taken when compared to the earlier, simpler example. You can now also see the use of the finish=True keyword, which will fully close the ClearML Task, instead of just resetting the parameters and prompts for a new conversation. from langchain.agents import initialize_agent, load_tools from langchain.agents import AgentType # SCENARIO 2 - Agent with Tools tools = load_tools(["serpapi", "llm-math"], llm=llm, callbacks=callbacks) agent = initialize_agent( tools, llm, agent=AgentType.ZERO_SHOT_REACT_DESCRIPTION, callbacks=callbacks, ) agent.run( "Who is the wife of the person who sang summer of 69?" ) clearml_callback.flush_tracker(langchain_asset=agent, name="Agent with Tools", finish=True) > Entering new AgentExecutor chain... {'action': 'on_chain_start', 'name': 'AgentExecutor', 'step': 1, 'starts': 1, 'ends': 0, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 0, 'llm_ends': 0, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'input': 'Who is the wife of the person who sang summer of 69?'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-21	{'action': 'on_llm_start', 'name': 'OpenAI', 'step': 2, 'starts': 2, 'ends': 0, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 1, 'llm_ends': 0, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'prompts': 'Answer the following questions as best you can. You have access to the following tools:\n\nSearch: A search engine. Useful for when you need to answer questions about current events. Input should be a search query.\nCalculator: Useful for when you need to answer questions about math.\n\nUse the following format:\n\nQuestion: the input question you must answer\nThought: you should always think about what to do\nAction: the action to take, should be one of [Search, Calculator]\nAction Input: the input to the action\nObservation: the result of the action\n... (this Thought/Action/Action Input/Observation can repeat N times)\nThought: I now know the final answer\nFinal Answer: the final answer to the original input question\n\nBegin!\n\nQuestion: Who is the wife of the person who sang summer of 69?\nThought:'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-22	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 189, 'token_usage_completion_tokens': 34, 'token_usage_total_tokens': 223, 'model_name': 'text-davinci-003', 'step': 3, 'starts': 2, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 1, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 0, 'tool_ends': 0, 'agent_ends': 0, 'text': ' I need to find out who sang summer of 69 and then find out who their wife is.\nAction: Search\nAction Input: "Who sang summer of 69"', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 91.61, 'flesch_kincaid_grade': 3.8, 'smog_index': 0.0, 'coleman_liau_index': 3.41, 'automated_readability_index': 3.5, 'dale_chall_readability_score': 6.06, 'difficult_words': 2, 'linsear_write_formula': 5.75, 'gunning_fog': 5.4, 'text_standard': '3rd and 4th grade', 'fernandez_huerta': 121.07, 'szigriszt_pazos': 119.5, 'gutierrez_polini': 54.91, 'crawford': 0.9, 'gulpease_index': 72.7, 'osman': 92.16}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-23	I need to find out who sang summer of 69 and then find out who their wife is. Action: Search Action Input: "Who sang summer of 69"{'action': 'on_agent_action', 'tool': 'Search', 'tool_input': 'Who sang summer of 69', 'log': ' I need to find out who sang summer of 69 and then find out who their wife is.\nAction: Search\nAction Input: "Who sang summer of 69"', 'step': 4, 'starts': 3, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 1, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 1, 'tool_ends': 0, 'agent_ends': 0} {'action': 'on_tool_start', 'input_str': 'Who sang summer of 69', 'name': 'Search', 'description': 'A search engine. Useful for when you need to answer questions about current events. Input should be a search query.', 'step': 5, 'starts': 4, 'ends': 1, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 1, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 2, 'tool_ends': 0, 'agent_ends': 0} Observation: Bryan Adams - Summer Of 69 (Official Music Video).	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-24	Observation: Bryan Adams - Summer Of 69 (Official Music Video). Thought:{'action': 'on_tool_end', 'output': 'Bryan Adams - Summer Of 69 (Official Music Video).', 'step': 6, 'starts': 4, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 1, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 2, 'tool_ends': 1, 'agent_ends': 0}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-25	{'action': 'on_llm_start', 'name': 'OpenAI', 'step': 7, 'starts': 5, 'ends': 2, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 1, 'llm_streams': 0, 'tool_starts': 2, 'tool_ends': 1, 'agent_ends': 0, 'prompts': 'Answer the following questions as best you can. You have access to the following tools:\n\nSearch: A search engine. Useful for when you need to answer questions about current events. Input should be a search query.\nCalculator: Useful for when you need to answer questions about math.\n\nUse the following format:\n\nQuestion: the input question you must answer\nThought: you should always think about what to do\nAction: the action to take, should be one of [Search, Calculator]\nAction Input: the input to the action\nObservation: the result of the action\n... (this Thought/Action/Action Input/Observation can repeat N times)\nThought: I now know the final answer\nFinal Answer: the final answer to the original input question\n\nBegin!\n\nQuestion: Who is the wife of the person who sang summer of 69?\nThought: I need to find out who sang summer of 69 and then find out who their wife is.\nAction: Search\nAction Input: "Who sang summer of 69"\nObservation: Bryan Adams - Summer Of 69 (Official Music Video).\nThought:'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-26	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 242, 'token_usage_completion_tokens': 28, 'token_usage_total_tokens': 270, 'model_name': 'text-davinci-003', 'step': 8, 'starts': 5, 'ends': 3, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 2, 'tool_ends': 1, 'agent_ends': 0, 'text': ' I need to find out who Bryan Adams is married to.\nAction: Search\nAction Input: "Who is Bryan Adams married to"', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 94.66, 'flesch_kincaid_grade': 2.7, 'smog_index': 0.0, 'coleman_liau_index': 4.73, 'automated_readability_index': 4.0, 'dale_chall_readability_score': 7.16, 'difficult_words': 2, 'linsear_write_formula': 4.25, 'gunning_fog': 4.2, 'text_standard': '4th and 5th grade', 'fernandez_huerta': 124.13, 'szigriszt_pazos': 119.2, 'gutierrez_polini': 52.26, 'crawford': 0.7, 'gulpease_index': 74.7, 'osman': 84.2} I need to find out who Bryan Adams is married to. Action: Search	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-27	I need to find out who Bryan Adams is married to. Action: Search Action Input: "Who is Bryan Adams married to"{'action': 'on_agent_action', 'tool': 'Search', 'tool_input': 'Who is Bryan Adams married to', 'log': ' I need to find out who Bryan Adams is married to.\nAction: Search\nAction Input: "Who is Bryan Adams married to"', 'step': 9, 'starts': 6, 'ends': 3, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 3, 'tool_ends': 1, 'agent_ends': 0} {'action': 'on_tool_start', 'input_str': 'Who is Bryan Adams married to', 'name': 'Search', 'description': 'A search engine. Useful for when you need to answer questions about current events. Input should be a search query.', 'step': 10, 'starts': 7, 'ends': 3, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 1, 'agent_ends': 0} Observation: Bryan Adams has never married. In the 1990s, he was in a relationship with Danish model Cecilie Thomsen. In 2011, Bryan and Alicia Grimaldi, his ...	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-28	Thought:{'action': 'on_tool_end', 'output': 'Bryan Adams has never married. In the 1990s, he was in a relationship with Danish model Cecilie Thomsen. In 2011, Bryan and Alicia Grimaldi, his ...', 'step': 11, 'starts': 7, 'ends': 4, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 2, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 2, 'agent_ends': 0}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-29	{'action': 'on_llm_start', 'name': 'OpenAI', 'step': 12, 'starts': 8, 'ends': 4, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 3, 'llm_ends': 2, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 2, 'agent_ends': 0, 'prompts': 'Answer the following questions as best you can. You have access to the following tools:\n\nSearch: A search engine. Useful for when you need to answer questions about current events. Input should be a search query.\nCalculator: Useful for when you need to answer questions about math.\n\nUse the following format:\n\nQuestion: the input question you must answer\nThought: you should always think about what to do\nAction: the action to take, should be one of [Search, Calculator]\nAction Input: the input to the action\nObservation: the result of the action\n... (this Thought/Action/Action Input/Observation can repeat N times)\nThought: I now know the final answer\nFinal Answer: the final answer to the original input question\n\nBegin!\n\nQuestion: Who	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-30	to the original input question\n\nBegin!\n\nQuestion: Who is the wife of the person who sang summer of 69?\nThought: I need to find out who sang summer of 69 and then find out who their wife is.\nAction: Search\nAction Input: "Who sang summer of 69"\nObservation: Bryan Adams - Summer Of 69 (Official Music Video).\nThought: I need to find out who Bryan Adams is married to.\nAction: Search\nAction Input: "Who is Bryan Adams married to"\nObservation: Bryan Adams has never married. In the 1990s, he was in a relationship with Danish model Cecilie Thomsen. In 2011, Bryan and Alicia Grimaldi, his ...\nThought:'}	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-31	{'action': 'on_llm_end', 'token_usage_prompt_tokens': 314, 'token_usage_completion_tokens': 18, 'token_usage_total_tokens': 332, 'model_name': 'text-davinci-003', 'step': 13, 'starts': 8, 'ends': 5, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 3, 'llm_ends': 3, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 2, 'agent_ends': 0, 'text': ' I now know the final answer.\nFinal Answer: Bryan Adams has never been married.', 'generation_info_finish_reason': 'stop', 'generation_info_logprobs': None, 'flesch_reading_ease': 81.29, 'flesch_kincaid_grade': 3.7, 'smog_index': 0.0, 'coleman_liau_index': 5.75, 'automated_readability_index': 3.9, 'dale_chall_readability_score': 7.37, 'difficult_words': 1, 'linsear_write_formula': 2.5, 'gunning_fog': 2.8, 'text_standard': '3rd and 4th grade', 'fernandez_huerta': 115.7, 'szigriszt_pazos': 110.84, 'gutierrez_polini': 49.79, 'crawford': 0.7, 'gulpease_index': 85.4, 'osman': 83.14} I now know the final answer. Final Answer: Bryan Adams has never been married.	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-32	I now know the final answer. Final Answer: Bryan Adams has never been married. {'action': 'on_agent_finish', 'output': 'Bryan Adams has never been married.', 'log': ' I now know the final answer.\nFinal Answer: Bryan Adams has never been married.', 'step': 14, 'starts': 8, 'ends': 6, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 0, 'llm_starts': 3, 'llm_ends': 3, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 2, 'agent_ends': 1} > Finished chain. {'action': 'on_chain_end', 'outputs': 'Bryan Adams has never been married.', 'step': 15, 'starts': 8, 'ends': 7, 'errors': 0, 'text_ctr': 0, 'chain_starts': 1, 'chain_ends': 1, 'llm_starts': 3, 'llm_ends': 3, 'llm_streams': 0, 'tool_starts': 4, 'tool_ends': 2, 'agent_ends': 1} {'action_records': action name step starts ends errors text_ctr \ 0 on_llm_start OpenAI 1 1 0 0 0 1 on_llm_start OpenAI 1 1 0 0 0 2 on_llm_start OpenAI 1 1 0 0 0 3 on_llm_start OpenAI 1 1 0 0 0	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-33	4 on_llm_start OpenAI 1 1 0 0 0 .. ... ... ... ... ... ... ... 66 on_tool_end NaN 11 7 4 0 0 67 on_llm_start OpenAI 12 8 4 0 0 68 on_llm_end NaN 13 8 5 0 0 69 on_agent_finish NaN 14 8 6 0 0 70 on_chain_end NaN 15 8 7 0 0 chain_starts chain_ends llm_starts ... gulpease_index osman input \ 0 0 0 1 ... NaN NaN NaN 1 0 0 1 ... NaN NaN NaN 2 0 0 1 ... NaN NaN NaN 3 0 0 1 ... NaN NaN NaN 4 0 0 1 ... NaN NaN NaN .. ... ... ... ... ... ... ... 66 1 0 2 ... NaN NaN NaN 67 1 0 3 ... NaN NaN NaN 68 1 0 3 ... 85.4 83.14 NaN 69 1 0 3 ... NaN NaN NaN	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-34	69 1 0 3 ... NaN NaN NaN 70 1 1 3 ... NaN NaN NaN tool tool_input log \ 0 NaN NaN NaN 1 NaN NaN NaN 2 NaN NaN NaN 3 NaN NaN NaN 4 NaN NaN NaN .. ... ... ... 66 NaN NaN NaN 67 NaN NaN NaN 68 NaN NaN NaN 69 NaN NaN I now know the final answer.\nFinal Answer: B... 70 NaN NaN NaN input_str description output \ 0 NaN NaN NaN 1 NaN NaN NaN 2 NaN NaN NaN 3 NaN NaN NaN 4 NaN NaN NaN .. ... ... ... 66 NaN NaN Bryan Adams has never married. In the 1990s, h... 67 NaN NaN NaN 68 NaN NaN NaN 69 NaN NaN Bryan Adams has never been married. 70 NaN NaN NaN outputs 0 NaN 1 NaN 2 NaN 3 NaN 4 NaN .. ... 66 NaN 67 NaN 68 NaN 69 NaN 70 Bryan Adams has never been married. [71 rows x 47 columns], 'session_analysis': prompt_step prompts name \ 0 2 Answer the following questions as best you can... OpenAI	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-35	0 2 Answer the following questions as best you can... OpenAI 1 7 Answer the following questions as best you can... OpenAI 2 12 Answer the following questions as best you can... OpenAI output_step output \ 0 3 I need to find out who sang summer of 69 and ... 1 8 I need to find out who Bryan Adams is married... 2 13 I now know the final answer.\nFinal Answer: B... token_usage_total_tokens token_usage_prompt_tokens \ 0 223 189 1 270 242 2 332 314 token_usage_completion_tokens flesch_reading_ease flesch_kincaid_grade \ 0 34 91.61 3.8 1 28 94.66 2.7 2 18 81.29 3.7 ... difficult_words linsear_write_formula gunning_fog \ 0 ... 2 5.75 5.4 1 ... 2 4.25 4.2 2 ... 1 2.50 2.8 text_standard fernandez_huerta szigriszt_pazos gutierrez_polini \ 0 3rd and 4th grade 121.07 119.50 54.91 1 4th and 5th grade 124.13 119.20 52.26	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
017cb9d1421c-36	2 3rd and 4th grade 115.70 110.84 49.79 crawford gulpease_index osman 0 0.9 72.7 92.16 1 0.7 74.7 84.20 2 0.7 85.4 83.14 [3 rows x 24 columns]} Could not update last created model in Task 988bd727b0e94a29a3ac0ee526813545, Task status 'completed' cannot be updated Tips and Next Steps# Make sure you always use a unique name argument for the clearml_callback.flush_tracker function. If not, the model parameters used for a run will override the previous run! If you close the ClearML Callback using clearml_callback.flush_tracker(..., finish=True) the Callback cannot be used anymore. Make a new one if you want to keep logging. Check out the rest of the open source ClearML ecosystem, there is a data version manager, a remote execution agent, automated pipelines and much more! previous Chroma next Cohere Contents Getting API Credentials Setting Up Scenario 1: Just an LLM Scenario 2: Creating an agent with tools Tips and Next Steps By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/clearml_tracking.html
36df20c22fed-0	.md .pdf Metal Contents What is Metal? Quick start Metal# This page covers how to use Metal within LangChain. What is Metal?# Metal is a managed retrieval & memory platform built for production. Easily index your data into Metal and run semantic search and retrieval on it. Quick start# Get started by creating a Metal account. Then, you can easily take advantage of the MetalRetriever class to start retrieving your data for semantic search, prompting context, etc. This class takes a Metal instance and a dictionary of parameters to pass to the Metal API. from langchain.retrievers import MetalRetriever from metal_sdk.metal import Metal metal = Metal("API_KEY", "CLIENT_ID", "INDEX_ID"); retriever = MetalRetriever(metal, params={"limit": 2}) docs = retriever.get_relevant_documents("search term") previous Llama.cpp next Milvus Contents What is Metal? Quick start By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/metal.html
0026e67f954b-0	.md .pdf RWKV-4 Contents Installation and Setup Usage RWKV Model File Rwkv-4 models -> recommended VRAM RWKV-4# This page covers how to use the RWKV-4 wrapper within LangChain. It is broken into two parts: installation and setup, and then usage with an example. Installation and Setup# Install the Python package with pip install rwkv Install the tokenizer Python package with pip install tokenizer Download a RWKV model and place it in your desired directory Download the tokens file Usage# RWKV# To use the RWKV wrapper, you need to provide the path to the pre-trained model file and the tokenizer’s configuration. from langchain.llms import RWKV # Test the model ```python def generate_prompt(instruction, input=None): if input: return f"""Below is an instruction that describes a task, paired with an input that provides further context. Write a response that appropriately completes the request. # Instruction: {instruction} # Input: {input} # Response: """ else: return f"""Below is an instruction that describes a task. Write a response that appropriately completes the request. # Instruction: {instruction} # Response: """ model = RWKV(model="./models/RWKV-4-Raven-3B-v7-Eng-20230404-ctx4096.pth", strategy="cpu fp32", tokens_path="./rwkv/20B_tokenizer.json") response = model(generate_prompt("Once upon a time, ")) Model File# You can find links to model file downloads at the RWKV-4-Raven repository. Rwkv-4 models -> recommended VRAM# RWKV VRAM Model \| 8bit \| bf16/fp16 \| fp32	https://python.langchain.com/en/latest/integrations/rwkv.html
0026e67f954b-1	RWKV VRAM Model \| 8bit \| bf16/fp16 \| fp32 14B \| 16GB \| 28GB \| >50GB 7B \| 8GB \| 14GB \| 28GB 3B \| 2.8GB\| 6GB \| 12GB 1b5 \| 1.3GB\| 3GB \| 6GB See the rwkv pip page for more information about strategies, including streaming and cuda support. previous Runhouse next SearxNG Search API Contents Installation and Setup Usage RWKV Model File Rwkv-4 models -> recommended VRAM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/rwkv.html
bc92954b4577-0	.md .pdf Replicate Contents Installation and Setup Calling a model Replicate# This page covers how to run models on Replicate within LangChain. Installation and Setup# Create a Replicate account. Get your API key and set it as an environment variable (REPLICATE_API_TOKEN) Install the Replicate python client with pip install replicate Calling a model# Find a model on the Replicate explore page, and then paste in the model name and version in this format: owner-name/model-name:version For example, for this dolly model, click on the API tab. The model name/version would be: "replicate/dolly-v2-12b:ef0e1aefc61f8e096ebe4db6b2bacc297daf2ef6899f0f7e001ec445893500e5" Only the model param is required, but any other model parameters can also be passed in with the format input={model_param: value, ...} For example, if we were running stable diffusion and wanted to change the image dimensions: Replicate(model="stability-ai/stable-diffusion:db21e45d3f7023abc2a46ee38a23973f6dce16bb082a930b0c49861f96d1e5bf", input={'image_dimensions': '512x512'}) Note that only the first output of a model will be returned. From here, we can initialize our model: llm = Replicate(model="replicate/dolly-v2-12b:ef0e1aefc61f8e096ebe4db6b2bacc297daf2ef6899f0f7e001ec445893500e5") And run it: prompt = """	https://python.langchain.com/en/latest/integrations/replicate.html
bc92954b4577-1	And run it: prompt = """ Answer the following yes/no question by reasoning step by step. Can a dog drive a car? """ llm(prompt) We can call any Replicate model (not just LLMs) using this syntax. For example, we can call Stable Diffusion: text2image = Replicate(model="stability-ai/stable-diffusion:db21e45d3f7023abc2a46ee38a23973f6dce16bb082a930b0c49861f96d1e5bf", input={'image_dimensions':'512x512'}) image_output = text2image("A cat riding a motorcycle by Picasso") previous Redis next Runhouse Contents Installation and Setup Calling a model By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/replicate.html
13e2ec100630-0	.ipynb .pdf Aim Aim# Aim makes it super easy to visualize and debug LangChain executions. Aim tracks inputs and outputs of LLMs and tools, as well as actions of agents. With Aim, you can easily debug and examine an individual execution: Additionally, you have the option to compare multiple executions side by side: Aim is fully open source, learn more about Aim on GitHub. Let’s move forward and see how to enable and configure Aim callback. Tracking LangChain Executions with AimIn this notebook we will explore three usage scenarios. To start off, we will install the necessary packages and import certain modules. Subsequently, we will configure two environment variables that can be established either within the Python script or through the terminal. !pip install aim !pip install langchain !pip install openai !pip install google-search-results import os from datetime import datetime from langchain.llms import OpenAI from langchain.callbacks import AimCallbackHandler, StdOutCallbackHandler Our examples use a GPT model as the LLM, and OpenAI offers an API for this purpose. You can obtain the key from the following link: https://platform.openai.com/account/api-keys . We will use the SerpApi to retrieve search results from Google. To acquire the SerpApi key, please go to https://serpapi.com/manage-api-key . os.environ["OPENAI_API_KEY"] = "..." os.environ["SERPAPI_API_KEY"] = "..." The event methods of AimCallbackHandler accept the LangChain module or agent as input and log at least the prompts and generated results, as well as the serialized version of the LangChain module, to the designated Aim run. session_group = datetime.now().strftime("%m.%d.%Y_%H.%M.%S") aim_callback = AimCallbackHandler( repo=".",	https://python.langchain.com/en/latest/integrations/aim_tracking.html
13e2ec100630-1	aim_callback = AimCallbackHandler( repo=".", experiment_name="scenario 1: OpenAI LLM", ) callbacks = [StdOutCallbackHandler(), aim_callback] llm = OpenAI(temperature=0, callbacks=callbacks) The flush_tracker function is used to record LangChain assets on Aim. By default, the session is reset rather than being terminated outright. Scenario 1 In the first scenario, we will use OpenAI LLM. # scenario 1 - LLM llm_result = llm.generate(["Tell me a joke", "Tell me a poem"] * 3) aim_callback.flush_tracker( langchain_asset=llm, experiment_name="scenario 2: Chain with multiple SubChains on multiple generations", ) Scenario 2 Scenario two involves chaining with multiple SubChains across multiple generations. from langchain.prompts import PromptTemplate from langchain.chains import LLMChain # scenario 2 - Chain template = """You are a playwright. Given the title of play, it is your job to write a synopsis for that title. Title: {title} Playwright: This is a synopsis for the above play:""" prompt_template = PromptTemplate(input_variables=["title"], template=template) synopsis_chain = LLMChain(llm=llm, prompt=prompt_template, callbacks=callbacks) test_prompts = [ {"title": "documentary about good video games that push the boundary of game design"}, {"title": "the phenomenon behind the remarkable speed of cheetahs"}, {"title": "the best in class mlops tooling"}, ] synopsis_chain.apply(test_prompts) aim_callback.flush_tracker( langchain_asset=synopsis_chain, experiment_name="scenario 3: Agent with Tools" )	https://python.langchain.com/en/latest/integrations/aim_tracking.html
13e2ec100630-2	) Scenario 3 The third scenario involves an agent with tools. from langchain.agents import initialize_agent, load_tools from langchain.agents import AgentType # scenario 3 - Agent with Tools tools = load_tools(["serpapi", "llm-math"], llm=llm, callbacks=callbacks) agent = initialize_agent( tools, llm, agent=AgentType.ZERO_SHOT_REACT_DESCRIPTION, callbacks=callbacks, ) agent.run( "Who is Leo DiCaprio's girlfriend? What is her current age raised to the 0.43 power?" ) aim_callback.flush_tracker(langchain_asset=agent, reset=False, finish=True) > Entering new AgentExecutor chain... I need to find out who Leo DiCaprio's girlfriend is and then calculate her age raised to the 0.43 power. Action: Search Action Input: "Leo DiCaprio girlfriend" Observation: Leonardo DiCaprio seemed to prove a long-held theory about his love life right after splitting from girlfriend Camila Morrone just months ... Thought: I need to find out Camila Morrone's age Action: Search Action Input: "Camila Morrone age" Observation: 25 years Thought: I need to calculate 25 raised to the 0.43 power Action: Calculator Action Input: 25^0.43 Observation: Answer: 3.991298452658078 Thought: I now know the final answer Final Answer: Camila Morrone is Leo DiCaprio's girlfriend and her current age raised to the 0.43 power is 3.991298452658078. > Finished chain. previous AI21 Labs next AnalyticDB By Harrison Chase © Copyright 2023, Harrison Chase.	https://python.langchain.com/en/latest/integrations/aim_tracking.html
13e2ec100630-3	AnalyticDB By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/aim_tracking.html
787f041cccc7-0	.md .pdf Tair Contents Installation and Setup Wrappers VectorStore Tair# This page covers how to use the Tair ecosystem within LangChain. Installation and Setup# Install Tair Python SDK with pip install tair. Wrappers# VectorStore# There exists a wrapper around TairVector, allowing you to use it as a vectorstore, whether for semantic search or example selection. To import this vectorstore: from langchain.vectorstores import Tair For a more detailed walkthrough of the Tair wrapper, see this notebook previous StochasticAI next Unstructured Contents Installation and Setup Wrappers VectorStore By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/tair.html
b38628e95544-0	.ipynb .pdf Chat Over Documents with Vectara Contents Pass in chat history Return Source Documents ConversationalRetrievalChain with search_distance ConversationalRetrievalChain with map_reduce ConversationalRetrievalChain with Question Answering with sources ConversationalRetrievalChain with streaming to stdout get_chat_history Function Chat Over Documents with Vectara# This notebook is based on the chat_vector_db notebook, but using Vectara as the vector database. import os from langchain.vectorstores import Vectara from langchain.vectorstores.vectara import VectaraRetriever from langchain.llms import OpenAI from langchain.chains import ConversationalRetrievalChain Load in documents. You can replace this with a loader for whatever type of data you want from langchain.document_loaders import TextLoader loader = TextLoader("../../modules/state_of_the_union.txt") documents = loader.load() We now split the documents, create embeddings for them, and put them in a vectorstore. This allows us to do semantic search over them. vectorstore = Vectara.from_documents(documents, embedding=None) We can now create a memory object, which is neccessary to track the inputs/outputs and hold a conversation. from langchain.memory import ConversationBufferMemory memory = ConversationBufferMemory(memory_key="chat_history", return_messages=True) We now initialize the ConversationalRetrievalChain openai_api_key = os.environ['OPENAI_API_KEY'] llm = OpenAI(openai_api_key=openai_api_key, temperature=0) retriever = VectaraRetriever(vectorstore, alpha=0.025, k=5, filter=None) print(type(vectorstore)) d = retriever.get_relevant_documents('What did the president say about Ketanji Brown Jackson')	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
b38628e95544-1	qa = ConversationalRetrievalChain.from_llm(llm, retriever, memory=memory) <class 'langchain.vectorstores.vectara.Vectara'> query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query}) result["answer"] " The president said that Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, and a former federal public defender." query = "Did he mention who she suceeded" result = qa({"question": query}) result['answer'] ' Justice Stephen Breyer.' Pass in chat history# In the above example, we used a Memory object to track chat history. We can also just pass it in explicitly. In order to do this, we need to initialize a chain without any memory object. qa = ConversationalRetrievalChain.from_llm(OpenAI(temperature=0), vectorstore.as_retriever()) Here’s an example of asking a question with no chat history chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query, "chat_history": chat_history}) result["answer"] " The president said that Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, and a former federal public defender." Here’s an example of asking a question with some chat history chat_history = [(query, result["answer"])] query = "Did he mention who she suceeded" result = qa({"question": query, "chat_history": chat_history}) result['answer'] ' Justice Stephen Breyer.' Return Source Documents#	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
b38628e95544-2	result['answer'] ' Justice Stephen Breyer.' Return Source Documents# You can also easily return source documents from the ConversationalRetrievalChain. This is useful for when you want to inspect what documents were returned. qa = ConversationalRetrievalChain.from_llm(llm, vectorstore.as_retriever(), return_source_documents=True) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query, "chat_history": chat_history}) result['source_documents'][0] Document(page_content='Tonight, I’d like to honor someone who has dedicated his life to serve this country: Justice Stephen Breyer—an Army veteran, Constitutional scholar, and retiring Justice of the United States Supreme Court. Justice Breyer, thank you for your service. One of the most serious constitutional responsibilities a President has is nominating someone to serve on the United States Supreme Court. And I did that 4 days ago, when I nominated Circuit Court of Appeals Judge Ketanji Brown Jackson. One of our nation’s top legal minds, who will continue Justice Breyer’s legacy of excellence. A former top litigator in private practice. A former federal public defender.', metadata={'source': '../../modules/state_of_the_union.txt'}) ConversationalRetrievalChain with search_distance# If you are using a vector store that supports filtering by search distance, you can add a threshold value parameter. vectordbkwargs = {"search_distance": 0.9} qa = ConversationalRetrievalChain.from_llm(OpenAI(temperature=0), vectorstore.as_retriever(), return_source_documents=True) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query, "chat_history": chat_history, "vectordbkwargs": vectordbkwargs})	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
b38628e95544-3	ConversationalRetrievalChain with map_reduce# We can also use different types of combine document chains with the ConversationalRetrievalChain chain. from langchain.chains import LLMChain from langchain.chains.question_answering import load_qa_chain from langchain.chains.conversational_retrieval.prompts import CONDENSE_QUESTION_PROMPT question_generator = LLMChain(llm=llm, prompt=CONDENSE_QUESTION_PROMPT) doc_chain = load_qa_chain(llm, chain_type="map_reduce") chain = ConversationalRetrievalChain( retriever=vectorstore.as_retriever(), question_generator=question_generator, combine_docs_chain=doc_chain, ) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = chain({"question": query, "chat_history": chat_history}) result['answer'] ' The president did not mention Ketanji Brown Jackson.' ConversationalRetrievalChain with Question Answering with sources# You can also use this chain with the question answering with sources chain. from langchain.chains.qa_with_sources import load_qa_with_sources_chain question_generator = LLMChain(llm=llm, prompt=CONDENSE_QUESTION_PROMPT) doc_chain = load_qa_with_sources_chain(llm, chain_type="map_reduce") chain = ConversationalRetrievalChain( retriever=vectorstore.as_retriever(), question_generator=question_generator, combine_docs_chain=doc_chain, ) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = chain({"question": query, "chat_history": chat_history}) result['answer']	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
b38628e95544-4	result = chain({"question": query, "chat_history": chat_history}) result['answer'] ' The president did not mention Ketanji Brown Jackson.\nSOURCES: ../../modules/state_of_the_union.txt' ConversationalRetrievalChain with streaming to stdout# Output from the chain will be streamed to stdout token by token in this example. from langchain.chains.llm import LLMChain from langchain.callbacks.streaming_stdout import StreamingStdOutCallbackHandler from langchain.chains.conversational_retrieval.prompts import CONDENSE_QUESTION_PROMPT, QA_PROMPT from langchain.chains.question_answering import load_qa_chain # Construct a ConversationalRetrievalChain with a streaming llm for combine docs # and a separate, non-streaming llm for question generation llm = OpenAI(temperature=0, openai_api_key=openai_api_key) streaming_llm = OpenAI(streaming=True, callbacks=[StreamingStdOutCallbackHandler()], temperature=0, openai_api_key=openai_api_key) question_generator = LLMChain(llm=llm, prompt=CONDENSE_QUESTION_PROMPT) doc_chain = load_qa_chain(streaming_llm, chain_type="stuff", prompt=QA_PROMPT) qa = ConversationalRetrievalChain( retriever=vectorstore.as_retriever(), combine_docs_chain=doc_chain, question_generator=question_generator) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query, "chat_history": chat_history}) The president said that Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, and a former federal public defender. chat_history = [(query, result["answer"])]	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
b38628e95544-5	chat_history = [(query, result["answer"])] query = "Did he mention who she suceeded" result = qa({"question": query, "chat_history": chat_history}) Justice Stephen Breyer. get_chat_history Function# You can also specify a get_chat_history function, which can be used to format the chat_history string. def get_chat_history(inputs) -> str: res = [] for human, ai in inputs: res.append(f"Human:{human}\nAI:{ai}") return "\n".join(res) qa = ConversationalRetrievalChain.from_llm(llm, vectorstore.as_retriever(), get_chat_history=get_chat_history) chat_history = [] query = "What did the president say about Ketanji Brown Jackson" result = qa({"question": query, "chat_history": chat_history}) result['answer'] " The president said that Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, and a former federal public defender." Contents Pass in chat history Return Source Documents ConversationalRetrievalChain with search_distance ConversationalRetrievalChain with map_reduce ConversationalRetrievalChain with Question Answering with sources ConversationalRetrievalChain with streaming to stdout get_chat_history Function By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/vectara/vectara_chat.html
5ef115acffe7-0	.ipynb .pdf Vectara Text Generation Contents Prepare Data Set Up Vector DB Set Up LLM Chain with Custom Prompt Generate Text Vectara Text Generation# This notebook is based on chat_vector_db and adapted to Vectara. Prepare Data# First, we prepare the data. For this example, we fetch a documentation site that consists of markdown files hosted on Github and split them into small enough Documents. from langchain.llms import OpenAI from langchain.docstore.document import Document import requests from langchain.vectorstores import Vectara from langchain.text_splitter import CharacterTextSplitter from langchain.prompts import PromptTemplate import pathlib import subprocess import tempfile def get_github_docs(repo_owner, repo_name): with tempfile.TemporaryDirectory() as d: subprocess.check_call( f"git clone --depth 1 https://github.com/{repo_owner}/{repo_name}.git .", cwd=d, shell=True, ) git_sha = ( subprocess.check_output("git rev-parse HEAD", shell=True, cwd=d) .decode("utf-8") .strip() ) repo_path = pathlib.Path(d) markdown_files = list(repo_path.glob("/.md")) + list( repo_path.glob("/.mdx") ) for markdown_file in markdown_files: with open(markdown_file, "r") as f: relative_path = markdown_file.relative_to(repo_path) github_url = f"https://github.com/{repo_owner}/{repo_name}/blob/{git_sha}/{relative_path}" yield Document(page_content=f.read(), metadata={"source": github_url}) sources = get_github_docs("yirenlu92", "deno-manual-forked") source_chunks = []	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-1	source_chunks = [] splitter = CharacterTextSplitter(separator=" ", chunk_size=1024, chunk_overlap=0) for source in sources: for chunk in splitter.split_text(source.page_content): source_chunks.append(chunk) Cloning into '.'... Set Up Vector DB# Now that we have the documentation content in chunks, let’s put all this information in a vector index for easy retrieval. import os search_index = Vectara.from_texts(source_chunks, embedding=None) Set Up LLM Chain with Custom Prompt# Next, let’s set up a simple LLM chain but give it a custom prompt for blog post generation. Note that the custom prompt is parameterized and takes two inputs: context, which will be the documents fetched from the vector search, and topic, which is given by the user. from langchain.chains import LLMChain prompt_template = """Use the context below to write a 400 word blog post about the topic below: Context: {context} Topic: {topic} Blog post:""" PROMPT = PromptTemplate( template=prompt_template, input_variables=["context", "topic"] ) llm = OpenAI(openai_api_key=os.environ['OPENAI_API_KEY'], temperature=0) chain = LLMChain(llm=llm, prompt=PROMPT) Generate Text# Finally, we write a function to apply our inputs to the chain. The function takes an input parameter topic. We find the documents in the vector index that correspond to that topic, and use them as additional context in our simple LLM chain. def generate_blog_post(topic): docs = search_index.similarity_search(topic, k=4) inputs = [{"context": doc.page_content, "topic": topic} for doc in docs] print(chain.apply(inputs))	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-2	print(chain.apply(inputs)) generate_blog_post("environment variables")	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-3	[{'text': '\n\nEnvironment variables are an essential part of any development workflow. They provide a way to store and access information that is specific to the environment in which the code is running. This can be especially useful when working with different versions of a language or framework, or when running code on different machines.\n\nThe Deno CLI tasks extension provides a way to easily manage environment variables when running Deno commands. This extension provides a task definition for allowing you to create tasks that execute the `deno` CLI from within the editor. The template for the Deno CLI tasks has the following interface, which can be configured in a `tasks.json` within your workspace:\n\nThe task definition includes the `type` field, which should be set to `deno`, and the `command` field, which is the `deno` command to run (e.g. `run`, `test`, `cache`, etc.). Additionally, you can specify additional arguments to pass on the command line, the current working directory to execute the command, and any environment variables.\n\nUsing environment variables with the	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-4	and any environment variables.\n\nUsing environment variables with the Deno CLI tasks extension is a great way to ensure that your code is running in the correct environment. For example, if you are running a test suite,'}, {'text': '\n\nEnvironment variables are an important part of any programming language, and they can be used to store and access data in a variety of ways. In this blog post, we\'ll be taking a look at environment variables specifically for the shell.\n\nShell variables are similar to environment variables, but they won\'t be exported to spawned commands. They are defined with the following syntax:\n\n```sh\nVAR_NAME=value\n```\n\nShell variables can be used to store and access data in a variety of ways. For example, you can use them to store values that you want to re-use, but don\'t want to be available in any spawned processes.\n\nFor example, if you wanted to store a value and then use it in a command, you could do something like this:\n\n```sh\nVAR=hello && echo $VAR && deno eval	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-5	&& echo $VAR && deno eval "console.log(\'Deno: \' + Deno.env.get(\'VAR\'))"\n```\n\nThis would output the following:\n\n```\nhello\nDeno: undefined\n```\n\nAs you can see, the value stored in the shell variable is not available in the spawned process.\n\n'}, {'text': '\n\nWhen it comes to developing applications, environment variables are an essential part of the process. Environment variables are used to store information that can be used by applications and scripts to customize their behavior. This is especially important when it comes to developing applications with Deno, as there are several environment variables that can impact the behavior of Deno.\n\nThe most important environment variable for Deno is `DENO_AUTH_TOKENS`. This environment variable is used to store authentication tokens that are used to access remote resources. This is especially important when it comes to accessing remote APIs or databases. Without the proper authentication tokens, Deno will not be able to access the remote resources.\n\nAnother important environment variable for Deno is `DENO_DIR`. This environment variable is used to	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-6	is `DENO_DIR`. This environment variable is used to store the directory where Deno will store its files. This includes the Deno executable, the Deno cache, and the Deno configuration files. By setting this environment variable, you can ensure that Deno will always be able to find the files it needs.\n\nFinally, there is the `DENO_PLUGINS` environment variable. This environment variable is used to store the list of plugins that Deno will use. This is important for customizing the'}, {'text': '\n\nEnvironment variables are a great way to store and access sensitive information in your Deno applications. Deno offers built-in support for environment variables with `Deno.env`, and you can also use a `.env` file to store and access environment variables. In this blog post, we\'ll explore both of these options and how to use them in your Deno applications.\n\n## Built-in `Deno.env`\n\nThe Deno runtime offers built-in support for environment variables with [`Deno.env`](https://deno.land/[email protected]?s=Deno.env). `Deno.env` has getter and setter methods.	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-7	`Deno.env` has getter and setter methods. Here is example usage:\n\n```ts\nDeno.env.set("FIREBASE_API_KEY", "examplekey123");\nDeno.env.set("FIREBASE_AUTH_DOMAIN", "firebasedomain.com");\n\nconsole.log(Deno.env.get("FIREBASE_API_KEY")); // examplekey123\nconsole.log(Deno.env.get("FIREBASE_AUTH_'}]	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
5ef115acffe7-8	Contents Prepare Data Set Up Vector DB Set Up LLM Chain with Custom Prompt Generate Text By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/integrations/vectara/vectara_text_generation.html
2e0d637a16e5-0	.md .pdf Autonomous Agents Contents Baby AGI (Original Repo) AutoGPT (Original Repo) MetaPrompt (Original Repo) Autonomous Agents# Autonomous Agents are agents that designed to be more long running. You give them one or multiple long term goals, and they independently execute towards those goals. The applications combine tool usage and long term memory. At the moment, Autonomous Agents are fairly experimental and based off of other open-source projects. By implementing these open source projects in LangChain primitives we can get the benefits of LangChain - easy switching and experimenting with multiple LLMs, usage of different vectorstores as memory, usage of LangChain’s collection of tools. Baby AGI (Original Repo)# Baby AGI: a notebook implementing BabyAGI as LLM Chains Baby AGI with Tools: building off the above notebook, this example substitutes in an agent with tools as the execution tools, allowing it to actually take actions. AutoGPT (Original Repo)# AutoGPT: a notebook implementing AutoGPT in LangChain primitives WebSearch Research Assistant: a notebook showing how to use AutoGPT plus specific tools to act as research assistant that can use the web. MetaPrompt (Original Repo)# Meta-Prompt: a notebook implementing Meta-Prompt in LangChain primitives previous Callbacks next Agent Simulations Contents Baby AGI (Original Repo) AutoGPT (Original Repo) MetaPrompt (Original Repo) By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/autonomous_agents.html
16b4067aaebd-0	.rst .pdf Evaluation Contents The Problem The Solution The Examples Other Examples Evaluation# Note Conceptual Guide This section of documentation covers how we approach and think about evaluation in LangChain. Both evaluation of internal chains/agents, but also how we would recommend people building on top of LangChain approach evaluation. The Problem# It can be really hard to evaluate LangChain chains and agents. There are two main reasons for this: # 1: Lack of data You generally don’t have a ton of data to evaluate your chains/agents over before starting a project. This is usually because Large Language Models (the core of most chains/agents) are terrific few-shot and zero shot learners, meaning you are almost always able to get started on a particular task (text-to-SQL, question answering, etc) without a large dataset of examples. This is in stark contrast to traditional machine learning where you had to first collect a bunch of datapoints before even getting started using a model. # 2: Lack of metrics Most chains/agents are performing tasks for which there are not very good metrics to evaluate performance. For example, one of the most common use cases is generating text of some form. Evaluating generated text is much more complicated than evaluating a classification prediction, or a numeric prediction. The Solution# LangChain attempts to tackle both of those issues. What we have so far are initial passes at solutions - we do not think we have a perfect solution. So we very much welcome feedback, contributions, integrations, and thoughts on this. Here is what we have for each problem so far: # 1: Lack of data We have started LangChainDatasets a Community space on Hugging Face. We intend this to be a collection of open source datasets for evaluating common chains and agents.	https://python.langchain.com/en/latest/use_cases/evaluation.html
16b4067aaebd-1	We intend this to be a collection of open source datasets for evaluating common chains and agents. We have contributed five datasets of our own to start, but we highly intend this to be a community effort. In order to contribute a dataset, you simply need to join the community and then you will be able to upload datasets. We’re also aiming to make it as easy as possible for people to create their own datasets. As a first pass at this, we’ve added a QAGenerationChain, which given a document comes up with question-answer pairs that can be used to evaluate question-answering tasks over that document down the line. See this notebook for an example of how to use this chain. # 2: Lack of metrics We have two solutions to the lack of metrics. The first solution is to use no metrics, and rather just rely on looking at results by eye to get a sense for how the chain/agent is performing. To assist in this, we have developed (and will continue to develop) tracing, a UI-based visualizer of your chain and agent runs. The second solution we recommend is to use Language Models themselves to evaluate outputs. For this we have a few different chains and prompts aimed at tackling this issue. The Examples# We have created a bunch of examples combining the above two solutions to show how we internally evaluate chains and agents when we are developing. In addition to the examples we’ve curated, we also highly welcome contributions here. To facilitate that, we’ve included a template notebook for community members to use to build their own examples. The existing examples we have are: Question Answering (State of Union): A notebook showing evaluation of a question-answering task over a State-of-the-Union address. Question Answering (Paul Graham Essay): A notebook showing evaluation of a question-answering task over a Paul Graham essay.	https://python.langchain.com/en/latest/use_cases/evaluation.html
16b4067aaebd-2	SQL Question Answering (Chinook): A notebook showing evaluation of a question-answering task over a SQL database (the Chinook database). Agent Vectorstore: A notebook showing evaluation of an agent doing question answering while routing between two different vector databases. Agent Search + Calculator: A notebook showing evaluation of an agent doing question answering using a Search engine and a Calculator as tools. Evaluating an OpenAPI Chain: A notebook showing evaluation of an OpenAPI chain, including how to generate test data if you don’t have any. Other Examples# In addition, we also have some more generic resources for evaluation. Question Answering: An overview of LLMs aimed at evaluating question answering systems in general. Data Augmented Question Answering: An end-to-end example of evaluating a question answering system focused on a specific document (a RetrievalQAChain to be precise). This example highlights how to use LLMs to come up with question/answer examples to evaluate over, and then highlights how to use LLMs to evaluate performance on those generated examples. Hugging Face Datasets: Covers an example of loading and using a dataset from Hugging Face for evaluation. previous Summarization next Agent Benchmarking: Search + Calculator Contents The Problem The Solution The Examples Other Examples By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/evaluation.html
085c6278ad46-0	.md .pdf Agents Contents Create Your Own Agent Step 1: Create Tools (Optional) Step 2: Modify Agent (Optional) Step 3: Modify Agent Executor Examples Agents# Conceptual Guide Agents can be used for a variety of tasks. Agents combine the decision making ability of a language model with tools in order to create a system that can execute and implement solutions on your behalf. Before reading any more, it is highly recommended that you read the documentation in the agent module to understand the concepts associated with agents more. Specifically, you should be familiar with what the agent, tool, and agent executor abstractions are before reading more. Agent Documentation (for interacting with the outside world) Create Your Own Agent# Once you have read that documentation, you should be prepared to create your own agent. What exactly does that involve? Here’s how we recommend getting started with creating your own agent: Step 1: Create Tools# Agents are largely defined by the tools they can use. If you have a specific task you want the agent to accomplish, you have to give it access to the right tools. We have many tools natively in LangChain, so you should first look to see if any of them meet your needs. But we also make it easy to define a custom tool, so if you need custom tools you should absolutely do that. (Optional) Step 2: Modify Agent# The built-in LangChain agent types are designed to work well in generic situations, but you may be able to improve performance by modifying the agent implementation. There are several ways you could do this: Modify the base prompt. This can be used to give the agent more context on how it should behave, etc. Modify the output parser. This is necessary if the agent is having trouble parsing the language model output.	https://python.langchain.com/en/latest/use_cases/personal_assistants.html
085c6278ad46-1	Modify the output parser. This is necessary if the agent is having trouble parsing the language model output. (Optional) Step 3: Modify Agent Executor# This step is usually not necessary, as this is pretty general logic. Possible reasons you would want to modify this include adding different stopping conditions, or handling errors Examples# Specific examples of agents include: AI Plugins: an implementation of an agent that is designed to be able to use all AI Plugins. Plug-and-PlAI (Plugins Database): an implementation of an agent that is designed to be able to use all AI Plugins retrieved from PlugNPlAI. Wikibase Agent: an implementation of an agent that is designed to interact with Wikibase. Sales GPT: This notebook demonstrates an implementation of a Context-Aware AI Sales agent. Multi-Modal Output Agent: an implementation of a multi-modal output agent that can generate text and images. previous Agent Simulations next Question Answering over Docs Contents Create Your Own Agent Step 1: Create Tools (Optional) Step 2: Modify Agent (Optional) Step 3: Modify Agent Executor Examples By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/personal_assistants.html
b421f74cf316-0	.md .pdf Extraction Extraction# Conceptual Guide Most APIs and databases still deal with structured information. Therefore, in order to better work with those, it can be useful to extract structured information from text. Examples of this include: Extracting a structured row to insert into a database from a sentence Extracting multiple rows to insert into a database from a long document Extracting the correct API parameters from a user query This work is extremely related to output parsing. Output parsers are responsible for instructing the LLM to respond in a specific format. In this case, the output parsers specify the format of the data you would like to extract from the document. Then, in addition to the output format instructions, the prompt should also contain the data you would like to extract information from. While normal output parsers are good enough for basic structuring of response data, when doing extraction you often want to extract more complicated or nested structures. For a deep dive on extraction, we recommend checking out kor, a library that uses the existing LangChain chain and OutputParser abstractions but deep dives on allowing extraction of more complicated schemas. previous Interacting with APIs next Summarization By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/extraction.html
e58c67d184f1-0	.md .pdf Interacting with APIs Contents Chains Agents Interacting with APIs# Conceptual Guide Lots of data and information is stored behind APIs. This page covers all resources available in LangChain for working with APIs. Chains# If you are just getting started, and you have relatively simple apis, you should get started with chains. Chains are a sequence of predetermined steps, so they are good to get started with as they give you more control and let you understand what is happening better. API Chain Agents# Agents are more complex, and involve multiple queries to the LLM to understand what to do. The downside of agents are that you have less control. The upside is that they are more powerful, which allows you to use them on larger and more complex schemas. OpenAPI Agent previous Code Understanding next Extraction Contents Chains Agents By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/apis.html
059ee6d9882b-0	.md .pdf Question Answering over Docs Contents Document Question Answering Adding in sources Additional Related Resources End-to-end examples Question Answering over Docs# Conceptual Guide Question answering in this context refers to question answering over your document data. For question answering over other types of data, please see other sources documentation like SQL database Question Answering or Interacting with APIs. For question answering over many documents, you almost always want to create an index over the data. This can be used to smartly access the most relevant documents for a given question, allowing you to avoid having to pass all the documents to the LLM (saving you time and money). See this notebook for a more detailed introduction to this, but for a super quick start the steps involved are: Load Your Documents from langchain.document_loaders import TextLoader loader = TextLoader('../state_of_the_union.txt') See here for more information on how to get started with document loading. Create Your Index from langchain.indexes import VectorstoreIndexCreator index = VectorstoreIndexCreator().from_loaders([loader]) The best and most popular index by far at the moment is the VectorStore index. Query Your Index query = "What did the president say about Ketanji Brown Jackson" index.query(query) Alternatively, use query_with_sources to also get back the sources involved query = "What did the president say about Ketanji Brown Jackson" index.query_with_sources(query) Again, these high level interfaces obfuscate a lot of what is going on under the hood, so please see this notebook for a lower level walkthrough. Document Question Answering# Question answering involves fetching multiple documents, and then asking a question of them. The LLM response will contain the answer to your question, based on the content of the documents.	https://python.langchain.com/en/latest/use_cases/question_answering.html
059ee6d9882b-1	The LLM response will contain the answer to your question, based on the content of the documents. The recommended way to get started using a question answering chain is: from langchain.chains.question_answering import load_qa_chain chain = load_qa_chain(llm, chain_type="stuff") chain.run(input_documents=docs, question=query) The following resources exist: Question Answering Notebook: A notebook walking through how to accomplish this task. VectorDB Question Answering Notebook: A notebook walking through how to do question answering over a vector database. This can often be useful for when you have a LOT of documents, and you don’t want to pass them all to the LLM, but rather first want to do some semantic search over embeddings. Adding in sources# There is also a variant of this, where in addition to responding with the answer the language model will also cite its sources (eg which of the documents passed in it used). The recommended way to get started using a question answering with sources chain is: from langchain.chains.qa_with_sources import load_qa_with_sources_chain chain = load_qa_with_sources_chain(llm, chain_type="stuff") chain({"input_documents": docs, "question": query}, return_only_outputs=True) The following resources exist: QA With Sources Notebook: A notebook walking through how to accomplish this task. VectorDB QA With Sources Notebook: A notebook walking through how to do question answering with sources over a vector database. This can often be useful for when you have a LOT of documents, and you don’t want to pass them all to the LLM, but rather first want to do some semantic search over embeddings. Additional Related Resources# Additional related resources include:	https://python.langchain.com/en/latest/use_cases/question_answering.html
059ee6d9882b-2	Additional Related Resources# Additional related resources include: Utilities for working with Documents: Guides on how to use several of the utilities which will prove helpful for this task, including Text Splitters (for splitting up long documents) and Embeddings & Vectorstores (useful for the above Vector DB example). CombineDocuments Chains: A conceptual overview of specific types of chains by which you can accomplish this task. End-to-end examples# For examples to this done in an end-to-end manner, please see the following resources: Semantic search over a group chat with Sources Notebook: A notebook that semantically searches over a group chat conversation. previous Agents next Chatbots Contents Document Question Answering Adding in sources Additional Related Resources End-to-end examples By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/question_answering.html
c8c29557f89e-0	.md .pdf Chatbots Chatbots# Conceptual Guide Since language models are good at producing text, that makes them ideal for creating chatbots. Aside from the base prompts/LLMs, an important concept to know for Chatbots is memory. Most chat based applications rely on remembering what happened in previous interactions, which memory is designed to help with. The following resources exist: ChatGPT Clone: A notebook walking through how to recreate a ChatGPT-like experience with LangChain. Conversation Memory: A notebook walking through how to use different types of conversational memory. Conversation Agent: A notebook walking through how to create an agent optimized for conversation. Additional related resources include: Memory Key Concepts: Explanation of key concepts related to memory. Memory Examples: A collection of how-to examples for working with memory. More end-to-end examples include: Voice Assistant: A notebook walking through how to create a voice assistant using LangChain. previous Question Answering over Docs next Querying Tabular Data By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.	https://python.langchain.com/en/latest/use_cases/chatbots.html
b040625c3b28-0	.md .pdf Agent Simulations Contents Simulations with One Agent Simulations with Two Agents Simulations with Multiple Agents Agent Simulations# Agent simulations involve interacting one of more agents with each other. Agent simulations generally involve two main components: Long Term Memory Simulation Environment Specific implementations of agent simulations (or parts of agent simulations) include: Simulations with One Agent# Simulated Environment: Gymnasium: an example of how to create a simple agent-environment interaction loop with Gymnasium (formerly OpenAI Gym). Simulations with Two Agents# CAMEL: an implementation of the CAMEL (Communicative Agents for “Mind” Exploration of Large Scale Language Model Society) paper, where two agents communicate with each other. Two Player D&D: an example of how to use a generic simulator for two agents to implement a variant of the popular Dungeons & Dragons role playing game. Agent Debates with Tools: an example of how to enable Dialogue Agents to use tools to inform their responses. Simulations with Multiple Agents# Multi-Player D&D: an example of how to use a generic dialogue simulator for multiple dialogue agents with a custom speaker-ordering, illustrated with a variant of the popular Dungeons & Dragons role playing game. Decentralized Speaker Selection: an example of how to implement a multi-agent dialogue without a fixed schedule for who speaks when. Instead the agents decide for themselves who speaks by outputting bids to speak. This example shows how to do this in the context of a fictitious presidential debate. Authoritarian Speaker Selection: an example of how to implement a multi-agent dialogue, where a privileged agent directs who speaks what. This example also showcases how to enable the privileged agent to determine when the conversation terminates. This example shows how to do this in the context of a fictitious news show.	https://python.langchain.com/en/latest/use_cases/agent_simulations.html

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.md .pdf SearxNG Search API Contents Installation and Setup Self Hosted Instance: Wrappers Utility Tool SearxNG Search API# This page covers how to use the SearxNG search API within LangChain. It is broken into two parts: installation and setup, and then references to the specific SearxNG API wrapper. Installation and Setup# While it is possible to utilize the wrapper in conjunction with public searx instances these instances frequently do not permit API access (see note on output format below) and have limitations on the frequency of requests. It is recommended to opt for a self-hosted instance instead. Self Hosted Instance:# See this page for installation instructions. When you install SearxNG, the only active output format by default is the HTML format. You need to activate the json format to use the API. This can be done by adding the following line to the settings.yml file: search: formats: - html - json You can make sure that the API is working by issuing a curl request to the API endpoint: curl -kLX GET --data-urlencode q='langchain' -d format=json http://localhost:8888 This should return a JSON object with the results. Wrappers# Utility# To use the wrapper we need to pass the host of the SearxNG instance to the wrapper with: 1. the named parameter searx_host when creating the instance. 2. exporting the environment variable SEARXNG_HOST. You can use the wrapper to get results from a SearxNG instance. from langchain.utilities import SearxSearchWrapper s = SearxSearchWrapper(searx_host="http://localhost:8888") s.run("what is a large language model?")

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s.run("what is a large language model?") Tool# You can also load this wrapper as a Tool (to use with an Agent). You can do this with: from langchain.agents import load_tools tools = load_tools(["searx-search"], searx_host="http://localhost:8888", engines=["github"]) Note that we could optionally pass custom engines to use. If you want to obtain results with metadata as json you can use: tools = load_tools(["searx-search-results-json"], searx_host="http://localhost:8888", num_results=5) For more information on tools, see this page previous RWKV-4 next SerpAPI Contents Installation and Setup Self Hosted Instance: Wrappers Utility Tool By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf Yeager.ai Contents What is Yeager.ai? yAgents How to use? Creating and Executing Tools with yAgents Yeager.ai# This page covers how to use Yeager.ai to generate LangChain tools and agents. What is Yeager.ai?# Yeager.ai is an ecosystem designed to simplify the process of creating AI agents and tools. It features yAgents, a No-code LangChain Agent Builder, which enables users to build, test, and deploy AI solutions with ease. Leveraging the LangChain framework, yAgents allows seamless integration with various language models and resources, making it suitable for developers, researchers, and AI enthusiasts across diverse applications. yAgents# Low code generative agent designed to help you build, prototype, and deploy Langchain tools with ease. How to use?# pip install yeagerai-agent yeagerai-agent Go to http://127.0.0.1:7860 This will install the necessary dependencies and set up yAgents on your system. After the first run, yAgents will create a .env file where you can input your OpenAI API key. You can do the same directly from the Gradio interface under the tab “Settings”. OPENAI_API_KEY=<your_openai_api_key_here> We recommend using GPT-4,. However, the tool can also work with GPT-3 if the problem is broken down sufficiently. Creating and Executing Tools with yAgents# yAgents makes it easy to create and execute AI-powered tools. Here’s a brief overview of the process: Create a tool: To create a tool, provide a natural language prompt to yAgents. The prompt should clearly describe the tool’s purpose and functionality. For example: create a tool that returns the n-th prime number

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create a tool that returns the n-th prime number Load the tool into the toolkit: To load a tool into yAgents, simply provide a command to yAgents that says so. For example: load the tool that you just created it into your toolkit Execute the tool: To run a tool or agent, simply provide a command to yAgents that includes the name of the tool and any required parameters. For example: generate the 50th prime number You can see a video of how it works here. As you become more familiar with yAgents, you can create more advanced tools and agents to automate your work and enhance your productivity. For more information, see yAgents’ Github or our docs previous Writer next Zilliz Contents What is Yeager.ai? yAgents How to use? Creating and Executing Tools with yAgents By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf PipelineAI Contents Installation and Setup Wrappers LLM PipelineAI# This page covers how to use the PipelineAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific PipelineAI wrappers. Installation and Setup# Install with pip install pipeline-ai Get a Pipeline Cloud api key and set it as an environment variable (PIPELINE_API_KEY) Wrappers# LLM# There exists a PipelineAI LLM wrapper, which you can access with from langchain.llms import PipelineAI previous Pinecone next Prediction Guard Contents Installation and Setup Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf Llama.cpp Contents Installation and Setup Wrappers LLM Embeddings Llama.cpp# This page covers how to use llama.cpp within LangChain. It is broken into two parts: installation and setup, and then references to specific Llama-cpp wrappers. Installation and Setup# Install the Python package with pip install llama-cpp-python Download one of the supported models and convert them to the llama.cpp format per the instructions Wrappers# LLM# There exists a LlamaCpp LLM wrapper, which you can access with from langchain.llms import LlamaCpp For a more detailed walkthrough of this, see this notebook Embeddings# There exists a LlamaCpp Embeddings wrapper, which you can access with from langchain.embeddings import LlamaCppEmbeddings For a more detailed walkthrough of this, see this notebook previous LanceDB next Metal Contents Installation and Setup Wrappers LLM Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf Pinecone Contents Installation and Setup Wrappers VectorStore Pinecone# This page covers how to use the Pinecone ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Pinecone wrappers. Installation and Setup# Install the Python SDK with pip install pinecone-client Wrappers# VectorStore# There exists a wrapper around Pinecone indexes, allowing you to use it as a vectorstore, whether for semantic search or example selection. To import this vectorstore: from langchain.vectorstores import Pinecone For a more detailed walkthrough of the Pinecone wrapper, see this notebook previous PGVector next PipelineAI Contents Installation and Setup Wrappers VectorStore By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf Runhouse Contents Installation and Setup Self-hosted LLMs Self-hosted Embeddings Runhouse# This page covers how to use the Runhouse ecosystem within LangChain. It is broken into three parts: installation and setup, LLMs, and Embeddings. Installation and Setup# Install the Python SDK with pip install runhouse If you’d like to use on-demand cluster, check your cloud credentials with sky check Self-hosted LLMs# For a basic self-hosted LLM, you can use the SelfHostedHuggingFaceLLM class. For more custom LLMs, you can use the SelfHostedPipeline parent class. from langchain.llms import SelfHostedPipeline, SelfHostedHuggingFaceLLM For a more detailed walkthrough of the Self-hosted LLMs, see this notebook Self-hosted Embeddings# There are several ways to use self-hosted embeddings with LangChain via Runhouse. For a basic self-hosted embedding from a Hugging Face Transformers model, you can use the SelfHostedEmbedding class. from langchain.llms import SelfHostedPipeline, SelfHostedHuggingFaceLLM For a more detailed walkthrough of the Self-hosted Embeddings, see this notebook previous Replicate next RWKV-4 Contents Installation and Setup Self-hosted LLMs Self-hosted Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.ipynb .pdf Comet Contents Install Comet and Dependencies Initialize Comet and Set your Credentials Set OpenAI and SerpAPI credentials Scenario 1: Using just an LLM Scenario 2: Using an LLM in a Chain Scenario 3: Using An Agent with Tools Scenario 4: Using Custom Evaluation Metrics Comet# In this guide we will demonstrate how to track your Langchain Experiments, Evaluation Metrics, and LLM Sessions with Comet. Example Project: Comet with LangChain Install Comet and Dependencies# %pip install comet_ml langchain openai google-search-results spacy textstat pandas import sys !{sys.executable} -m spacy download en_core_web_sm Initialize Comet and Set your Credentials# You can grab your Comet API Key here or click the link after initializing Comet import comet_ml comet_ml.init(project_name="comet-example-langchain") Set OpenAI and SerpAPI credentials# You will need an OpenAI API Key and a SerpAPI API Key to run the following examples import os os.environ["OPENAI_API_KEY"] = "..." #os.environ["OPENAI_ORGANIZATION"] = "..." os.environ["SERPAPI_API_KEY"] = "..." Scenario 1: Using just an LLM# from datetime import datetime from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=True, stream_logs=True, tags=["llm"], visualizations=["dep"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks, verbose=True)

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llm = OpenAI(temperature=0.9, callbacks=callbacks, verbose=True) llm_result = llm.generate(["Tell me a joke", "Tell me a poem", "Tell me a fact"] * 3) print("LLM result", llm_result) comet_callback.flush_tracker(llm, finish=True) Scenario 2: Using an LLM in a Chain# from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.chains import LLMChain from langchain.llms import OpenAI from langchain.prompts import PromptTemplate comet_callback = CometCallbackHandler( complexity_metrics=True, project_name="comet-example-langchain", stream_logs=True, tags=["synopsis-chain"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks) template = """You are a playwright. Given the title of play, it is your job to write a synopsis for that title. Title: {title} Playwright: This is a synopsis for the above play:""" prompt_template = PromptTemplate(input_variables=["title"], template=template) synopsis_chain = LLMChain(llm=llm, prompt=prompt_template, callbacks=callbacks) test_prompts = [{"title": "Documentary about Bigfoot in Paris"}] print(synopsis_chain.apply(test_prompts)) comet_callback.flush_tracker(synopsis_chain, finish=True) Scenario 3: Using An Agent with Tools# from langchain.agents import initialize_agent, load_tools from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=True,

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project_name="comet-example-langchain", complexity_metrics=True, stream_logs=True, tags=["agent"], ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9, callbacks=callbacks) tools = load_tools(["serpapi", "llm-math"], llm=llm, callbacks=callbacks) agent = initialize_agent( tools, llm, agent="zero-shot-react-description", callbacks=callbacks, verbose=True, ) agent.run( "Who is Leo DiCaprio's girlfriend? What is her current age raised to the 0.43 power?" ) comet_callback.flush_tracker(agent, finish=True) Scenario 4: Using Custom Evaluation Metrics# The CometCallbackManager also allows you to define and use Custom Evaluation Metrics to assess generated outputs from your model. Let’s take a look at how this works. In the snippet below, we will use the ROUGE metric to evaluate the quality of a generated summary of an input prompt. %pip install rouge-score from rouge_score import rouge_scorer from langchain.callbacks import CometCallbackHandler, StdOutCallbackHandler from langchain.chains import LLMChain from langchain.llms import OpenAI from langchain.prompts import PromptTemplate class Rouge: def __init__(self, reference): self.reference = reference self.scorer = rouge_scorer.RougeScorer(["rougeLsum"], use_stemmer=True) def compute_metric(self, generation, prompt_idx, gen_idx): prediction = generation.text results = self.scorer.score(target=self.reference, prediction=prediction) return {

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return { "rougeLsum_score": results["rougeLsum"].fmeasure, "reference": self.reference, } reference = """ The tower is 324 metres (1,063 ft) tall, about the same height as an 81-storey building. It was the first structure to reach a height of 300 metres. It is now taller than the Chrysler Building in New York City by 5.2 metres (17 ft) Excluding transmitters, the Eiffel Tower is the second tallest free-standing structure in France . """ rouge_score = Rouge(reference=reference) template = """Given the following article, it is your job to write a summary. Article: {article} Summary: This is the summary for the above article:""" prompt_template = PromptTemplate(input_variables=["article"], template=template) comet_callback = CometCallbackHandler( project_name="comet-example-langchain", complexity_metrics=False, stream_logs=True, tags=["custom_metrics"], custom_metrics=rouge_score.compute_metric, ) callbacks = [StdOutCallbackHandler(), comet_callback] llm = OpenAI(temperature=0.9) synopsis_chain = LLMChain(llm=llm, prompt=prompt_template) test_prompts = [ { "article": """ The tower is 324 metres (1,063 ft) tall, about the same height as an 81-storey building, and the tallest structure in Paris. Its base is square, measuring 125 metres (410 ft) on each side. During its construction, the Eiffel Tower surpassed the Washington Monument to become the tallest man-made structure in the world, a title it held for 41 years until the Chrysler Building

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a title it held for 41 years until the Chrysler Building in New York City was finished in 1930. It was the first structure to reach a height of 300 metres. Due to the addition of a broadcasting aerial at the top of the tower in 1957, it is now taller than the Chrysler Building by 5.2 metres (17 ft). Excluding transmitters, the Eiffel Tower is the second tallest free-standing structure in France after the Millau Viaduct. """ } ] print(synopsis_chain.apply(test_prompts, callbacks=callbacks)) comet_callback.flush_tracker(synopsis_chain, finish=True) previous Cohere next C Transformers Contents Install Comet and Dependencies Initialize Comet and Set your Credentials Set OpenAI and SerpAPI credentials Scenario 1: Using just an LLM Scenario 2: Using an LLM in a Chain Scenario 3: Using An Agent with Tools Scenario 4: Using Custom Evaluation Metrics By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf GooseAI Contents Installation and Setup Wrappers LLM GooseAI# This page covers how to use the GooseAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific GooseAI wrappers. Installation and Setup# Install the Python SDK with pip install openai Get your GooseAI api key from this link here. Set the environment variable (GOOSEAI_API_KEY). import os os.environ["GOOSEAI_API_KEY"] = "YOUR_API_KEY" Wrappers# LLM# There exists an GooseAI LLM wrapper, which you can access with: from langchain.llms import GooseAI previous Google Serper next GPT4All Contents Installation and Setup Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf MyScale Contents Introduction Installation and Setup Setting up envrionments Wrappers VectorStore MyScale# This page covers how to use MyScale vector database within LangChain. It is broken into two parts: installation and setup, and then references to specific MyScale wrappers. With MyScale, you can manage both structured and unstructured (vectorized) data, and perform joint queries and analytics on both types of data using SQL. Plus, MyScale’s cloud-native OLAP architecture, built on top of ClickHouse, enables lightning-fast data processing even on massive datasets. Introduction# Overview to MyScale and High performance vector search You can now register on our SaaS and start a cluster now! If you are also interested in how we managed to integrate SQL and vector, please refer to this document for further syntax reference. We also deliver with live demo on huggingface! Please checkout our huggingface space! They search millions of vector within a blink! Installation and Setup# Install the Python SDK with pip install clickhouse-connect Setting up envrionments# There are two ways to set up parameters for myscale index. Environment Variables Before you run the app, please set the environment variable with export: export MYSCALE_URL='<your-endpoints-url>' MYSCALE_PORT=<your-endpoints-port> MYSCALE_USERNAME=<your-username> MYSCALE_PASSWORD=<your-password> ... You can easily find your account, password and other info on our SaaS. For details please refer to this document Every attributes under MyScaleSettings can be set with prefix MYSCALE_ and is case insensitive. Create MyScaleSettings object with parameters from langchain.vectorstores import MyScale, MyScaleSettings config = MyScaleSetting(host="<your-backend-url>", port=8443, ...) index = MyScale(embedding_function, config)

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index = MyScale(embedding_function, config) index.add_documents(...) Wrappers# supported functions: add_texts add_documents from_texts from_documents similarity_search asimilarity_search similarity_search_by_vector asimilarity_search_by_vector similarity_search_with_relevance_scores VectorStore# There exists a wrapper around MyScale database, allowing you to use it as a vectorstore, whether for semantic search or similar example retrieval. To import this vectorstore: from langchain.vectorstores import MyScale For a more detailed walkthrough of the MyScale wrapper, see this notebook previous Momento next NLPCloud Contents Introduction Installation and Setup Setting up envrionments Wrappers VectorStore By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf Modal Contents Installation and Setup Define your Modal Functions and Webhooks Wrappers LLM Modal# This page covers how to use the Modal ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Modal wrappers. Installation and Setup# Install with pip install modal-client Run modal token new Define your Modal Functions and Webhooks# You must include a prompt. There is a rigid response structure. class Item(BaseModel): prompt: str @stub.webhook(method="POST") def my_webhook(item: Item): return {"prompt": my_function.call(item.prompt)} An example with GPT2: from pydantic import BaseModel import modal stub = modal.Stub("example-get-started") volume = modal.SharedVolume().persist("gpt2_model_vol") CACHE_PATH = "/root/model_cache" @stub.function( gpu="any", image=modal.Image.debian_slim().pip_install( "tokenizers", "transformers", "torch", "accelerate" ), shared_volumes={CACHE_PATH: volume}, retries=3, ) def run_gpt2(text: str): from transformers import GPT2Tokenizer, GPT2LMHeadModel tokenizer = GPT2Tokenizer.from_pretrained('gpt2') model = GPT2LMHeadModel.from_pretrained('gpt2') encoded_input = tokenizer(text, return_tensors='pt').input_ids output = model.generate(encoded_input, max_length=50, do_sample=True) return tokenizer.decode(output[0], skip_special_tokens=True) class Item(BaseModel): prompt: str @stub.webhook(method="POST") def get_text(item: Item):

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@stub.webhook(method="POST") def get_text(item: Item): return {"prompt": run_gpt2.call(item.prompt)} Wrappers# LLM# There exists an Modal LLM wrapper, which you can access with from langchain.llms import Modal previous MLflow next Momento Contents Installation and Setup Define your Modal Functions and Webhooks Wrappers LLM By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

https://python.langchain.com/en/latest/integrations/modal.html

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.md .pdf Jina Contents Installation and Setup Wrappers Embeddings Jina# This page covers how to use the Jina ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Jina wrappers. Installation and Setup# Install the Python SDK with pip install jina Get a Jina AI Cloud auth token from here and set it as an environment variable (JINA_AUTH_TOKEN) Wrappers# Embeddings# There exists a Jina Embeddings wrapper, which you can access with from langchain.embeddings import JinaEmbeddings For a more detailed walkthrough of this, see this notebook previous Hugging Face next LanceDB Contents Installation and Setup Wrappers Embeddings By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf C Transformers Contents Installation and Setup Wrappers LLM C Transformers# This page covers how to use the C Transformers library within LangChain. It is broken into two parts: installation and setup, and then references to specific C Transformers wrappers. Installation and Setup# Install the Python package with pip install ctransformers Download a supported GGML model (see Supported Models) Wrappers# LLM# There exists a CTransformers LLM wrapper, which you can access with: from langchain.llms import CTransformers It provides a unified interface for all models: llm = CTransformers(model='/path/to/ggml-gpt-2.bin', model_type='gpt2') print(llm('AI is going to')) If you are getting illegal instruction error, try using lib='avx' or lib='basic': llm = CTransformers(model='/path/to/ggml-gpt-2.bin', model_type='gpt2', lib='avx') It can be used with models hosted on the Hugging Face Hub: llm = CTransformers(model='marella/gpt-2-ggml') If a model repo has multiple model files (.bin files), specify a model file using: llm = CTransformers(model='marella/gpt-2-ggml', model_file='ggml-model.bin') Additional parameters can be passed using the config parameter: config = {'max_new_tokens': 256, 'repetition_penalty': 1.1} llm = CTransformers(model='marella/gpt-2-ggml', config=config) See Documentation for a list of available parameters. For a more detailed walkthrough of this, see this notebook. previous Comet next Databerry Contents Installation and Setup

https://python.langchain.com/en/latest/integrations/ctransformers.html

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https://python.langchain.com/en/latest/integrations/ctransformers.html

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.md .pdf Prediction Guard Contents Installation and Setup LLM Wrapper Example usage Prediction Guard# This page covers how to use the Prediction Guard ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific Prediction Guard wrappers. Installation and Setup# Install the Python SDK with pip install predictionguard Get an Prediction Guard access token (as described here) and set it as an environment variable (PREDICTIONGUARD_TOKEN) LLM Wrapper# There exists a Prediction Guard LLM wrapper, which you can access with from langchain.llms import PredictionGuard You can provide the name of your Prediction Guard “proxy” as an argument when initializing the LLM: pgllm = PredictionGuard(name="your-text-gen-proxy") Alternatively, you can use Prediction Guard’s default proxy for SOTA LLMs: pgllm = PredictionGuard(name="default-text-gen") You can also provide your access token directly as an argument: pgllm = PredictionGuard(name="default-text-gen", token="<your access token>") Example usage# Basic usage of the LLM wrapper: from langchain.llms import PredictionGuard pgllm = PredictionGuard(name="default-text-gen") pgllm("Tell me a joke") Basic LLM Chaining with the Prediction Guard wrapper: from langchain import PromptTemplate, LLMChain from langchain.llms import PredictionGuard template = """Question: {question} Answer: Let's think step by step.""" prompt = PromptTemplate(template=template, input_variables=["question"]) llm_chain = LLMChain(prompt=prompt, llm=PredictionGuard(name="default-text-gen"), verbose=True) question = "What NFL team won the Super Bowl in the year Justin Beiber was born?" llm_chain.predict(question=question) previous

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llm_chain.predict(question=question) previous PipelineAI next PromptLayer Contents Installation and Setup LLM Wrapper Example usage By Harrison Chase © Copyright 2023, Harrison Chase. Last updated on May 28, 2023.

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.md .pdf OpenAI Contents Installation and Setup Wrappers LLM Embeddings Tokenizer Moderation OpenAI# This page covers how to use the OpenAI ecosystem within LangChain. It is broken into two parts: installation and setup, and then references to specific OpenAI wrappers. Installation and Setup# Install the Python SDK with pip install openai Get an OpenAI api key and set it as an environment variable (OPENAI_API_KEY) If you want to use OpenAI’s tokenizer (only available for Python 3.9+), install it with pip install tiktoken Wrappers# LLM# There exists an OpenAI LLM wrapper, which you can access with from langchain.llms import OpenAI If you are using a model hosted on Azure, you should use different wrapper for that: from langchain.llms import AzureOpenAI For a more detailed walkthrough of the Azure wrapper, see this notebook Embeddings# There exists an OpenAI Embeddings wrapper, which you can access with from langchain.embeddings import OpenAIEmbeddings For a more detailed walkthrough of this, see this notebook Tokenizer# There are several places you can use the tiktoken tokenizer. By default, it is used to count tokens for OpenAI LLMs. You can also use it to count tokens when splitting documents with from langchain.text_splitter import CharacterTextSplitter CharacterTextSplitter.from_tiktoken_encoder(...) For a more detailed walkthrough of this, see this notebook Moderation# You can also access the OpenAI content moderation endpoint with from langchain.chains import OpenAIModerationChain For a more detailed walkthrough of this, see this notebook previous NLPCloud next OpenSearch Contents Installation and Setup Wrappers LLM Embeddings Tokenizer

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.ipynb .pdf ClearML Integration Contents Getting API Credentials Setting Up Scenario 1: Just an LLM Scenario 2: Creating an agent with tools Tips and Next Steps ClearML Integration# In order to properly keep track of your langchain experiments and their results, you can enable the ClearML integration. ClearML is an experiment manager that neatly tracks and organizes all your experiment runs. Getting API Credentials# We’ll be using quite some APIs in this notebook, here is a list and where to get them: ClearML: https://app.clear.ml/settings/workspace-configuration OpenAI: https://platform.openai.com/account/api-keys SerpAPI (google search): https://serpapi.com/dashboard import os os.environ["CLEARML_API_ACCESS_KEY"] = "" os.environ["CLEARML_API_SECRET_KEY"] = "" os.environ["OPENAI_API_KEY"] = "" os.environ["SERPAPI_API_KEY"] = "" Setting Up# !pip install clearml !pip install pandas !pip install textstat !pip install spacy !python -m spacy download en_core_web_sm from datetime import datetime from langchain.callbacks import ClearMLCallbackHandler, StdOutCallbackHandler from langchain.llms import OpenAI # Setup and use the ClearML Callback clearml_callback = ClearMLCallbackHandler( task_type="inference", project_name="langchain_callback_demo", task_name="llm", tags=["test"], # Change the following parameters based on the amount of detail you want tracked visualize=True, complexity_metrics=True, stream_logs=True ) callbacks = [StdOutCallbackHandler(), clearml_callback] # Get the OpenAI model ready to go llm = OpenAI(temperature=0, callbacks=callbacks)