"""Schema definitions for representing agent actions, observations, and return values.
**ATTENTION** The schema definitions are provided for backwards compatibility.
New agents should be built using the langgraph library
(https://github.com/langchain-ai/langgraph)), which provides a simpler
and more flexible way to define agents.
Please see the migration guide for information on how to migrate existing
agents to modern langgraph agents:
https://python.langchain.com/v0.2/docs/how_to/migrate_agent/
Agents use language models to choose a sequence of actions to take.
A basic agent works in the following manner:
1. Given a prompt an agent uses an LLM to request an action to take (e.g., a tool to run).
2. The agent executes the action (e.g., runs the tool), and receives an observation.
3. The agent returns the observation to the LLM, which can then be used to generate the next action.
4. When the agent reaches a stopping condition, it returns a final return value.
The schemas for the agents themselves are defined in langchain.agents.agent.
""" # noqa: E501
from __future__ import annotations
import json
from collections.abc import Sequence
from typing import Any, Literal, Union
from langchain_core.load.serializable import Serializable
from langchain_core.messages import (
AIMessage,
BaseMessage,
FunctionMessage,
HumanMessage,
)
[docs]
class AgentAction(Serializable):
"""Represents a request to execute an action by an agent.
The action consists of the name of the tool to execute and the input to pass
to the tool. The log is used to pass along extra information about the action.
"""
tool: str
"""The name of the Tool to execute."""
tool_input: Union[str, dict]
"""The input to pass in to the Tool."""
log: str
"""Additional information to log about the action.
This log can be used in a few ways. First, it can be used to audit
what exactly the LLM predicted to lead to this (tool, tool_input).
Second, it can be used in future iterations to show the LLMs prior
thoughts. This is useful when (tool, tool_input) does not contain
full information about the LLM prediction (for example, any `thought`
before the tool/tool_input)."""
type: Literal["AgentAction"] = "AgentAction"
# Override init to support instantiation by position for backward compat.
def __init__(
self, tool: str, tool_input: Union[str, dict], log: str, **kwargs: Any
):
super().__init__(tool=tool, tool_input=tool_input, log=log, **kwargs)
@classmethod
def is_lc_serializable(cls) -> bool:
"""Return whether or not the class is serializable.
Default is True.
"""
return True
@classmethod
def get_lc_namespace(cls) -> list[str]:
"""Get the namespace of the langchain object.
Default is ["langchain", "schema", "agent"]."""
return ["langchain", "schema", "agent"]
@property
def messages(self) -> Sequence[BaseMessage]:
"""Return the messages that correspond to this action."""
return _convert_agent_action_to_messages(self)
[docs]
class AgentActionMessageLog(AgentAction):
"""Representation of an action to be executed by an agent.
This is similar to AgentAction, but includes a message log consisting of
chat messages. This is useful when working with ChatModels, and is used
to reconstruct conversation history from the agent's perspective.
"""
message_log: Sequence[BaseMessage]
"""Similar to log, this can be used to pass along extra
information about what exact messages were predicted by the LLM
before parsing out the (tool, tool_input). This is again useful
if (tool, tool_input) cannot be used to fully recreate the LLM
prediction, and you need that LLM prediction (for future agent iteration).
Compared to `log`, this is useful when the underlying LLM is a
ChatModel (and therefore returns messages rather than a string)."""
# Ignoring type because we're overriding the type from AgentAction.
# And this is the correct thing to do in this case.
# The type literal is used for serialization purposes.
type: Literal["AgentActionMessageLog"] = "AgentActionMessageLog" # type: ignore
[docs]
class AgentStep(Serializable):
"""Result of running an AgentAction."""
action: AgentAction
"""The AgentAction that was executed."""
observation: Any
"""The result of the AgentAction."""
@property
def messages(self) -> Sequence[BaseMessage]:
"""Messages that correspond to this observation."""
return _convert_agent_observation_to_messages(self.action, self.observation)
[docs]
class AgentFinish(Serializable):
"""Final return value of an ActionAgent.
Agents return an AgentFinish when they have reached a stopping condition.
"""
return_values: dict
"""Dictionary of return values."""
log: str
"""Additional information to log about the return value.
This is used to pass along the full LLM prediction, not just the parsed out
return value. For example, if the full LLM prediction was
`Final Answer: 2` you may want to just return `2` as a return value, but pass
along the full string as a `log` (for debugging or observability purposes).
"""
type: Literal["AgentFinish"] = "AgentFinish"
def __init__(self, return_values: dict, log: str, **kwargs: Any):
"""Override init to support instantiation by position for backward compat."""
super().__init__(return_values=return_values, log=log, **kwargs)
@classmethod
def is_lc_serializable(cls) -> bool:
"""Return whether or not the class is serializable."""
return True
@classmethod
def get_lc_namespace(cls) -> list[str]:
"""Get the namespace of the langchain object."""
return ["langchain", "schema", "agent"]
@property
def messages(self) -> Sequence[BaseMessage]:
"""Messages that correspond to this observation."""
return [AIMessage(content=self.log)]
def _convert_agent_action_to_messages(
agent_action: AgentAction,
) -> Sequence[BaseMessage]:
"""Convert an agent action to a message.
This code is used to reconstruct the original AI message from the agent action.
Args:
agent_action: Agent action to convert.
Returns:
AIMessage that corresponds to the original tool invocation.
"""
if isinstance(agent_action, AgentActionMessageLog):
return agent_action.message_log
else:
return [AIMessage(content=agent_action.log)]
def _convert_agent_observation_to_messages(
agent_action: AgentAction, observation: Any
) -> Sequence[BaseMessage]:
"""Convert an agent action to a message.
This code is used to reconstruct the original AI message from the agent action.
Args:
agent_action: Agent action to convert.
observation: Observation to convert to a message.
Returns:
AIMessage that corresponds to the original tool invocation.
"""
if isinstance(agent_action, AgentActionMessageLog):
return [_create_function_message(agent_action, observation)]
else:
return [HumanMessage(content=observation)]
def _create_function_message(
agent_action: AgentAction, observation: Any
) -> FunctionMessage:
"""Convert agent action and observation into a function message.
Args:
agent_action: the tool invocation request from the agent.
observation: the result of the tool invocation.
Returns:
FunctionMessage that corresponds to the original tool invocation.
"""
if not isinstance(observation, str):
try:
content = json.dumps(observation, ensure_ascii=False)
except Exception:
content = str(observation)
else:
content = observation
return FunctionMessage(
name=agent_action.tool,
content=content,
)
