Defining Custom Tools

When constructing your own agent, you will need to provide it with a list of Tools that it can use. Besides the actual function that is called, the Tool consists of several components:

• name (str), is required and must be unique within a set of tools provided to an agent
• description (str), is optional but recommended, as it is used by an agent to determine tool use
• args_schema (Pydantic BaseModel), is optional but recommended, can be used to provide more information (e.g., few-shot examples) or validation for expected parameters.

There are multiple ways to define a tool. In this guide, we will walk through how to do for two functions:

1. A made up search function that always returns the string “LangChain”
2. A multiplier function that will multiply two numbers by eachother

The biggest difference here is that the first function only requires one input, while the second one requires multiple. Many agents only work with functions that require single inputs, so it’s important to know how to work with those. For the most part, defining these custom tools is the same, but there are some differences.

# Import things that are needed generically
from langchain.pydantic_v1 import BaseModel, Field
from langchain.tools import BaseTool, StructuredTool, tool

API Reference:

• BaseTool
• StructuredTool
• tool

@tool decorator

This @tool decorator is the simplest way to define a custom tool. The decorator uses the function name as the tool name by default, but this can be overridden by passing a string as the first argument. Additionally, the decorator will use the function’s docstring as the tool’s description - so a docstring MUST be provided.

@tool
def search(query: str) -> str:
    """Look up things online."""
    return "LangChain"

print(search.name)
print(search.description)
print(search.args)

search
search(query: str) -> str - Look up things online.
{'query': {'title': 'Query', 'type': 'string'}}

@tool
def multiply(a: int, b: int) -> int:
    """Multiply two numbers."""
    return a * b

print(multiply.name)
print(multiply.description)
print(multiply.args)

multiply
multiply(a: int, b: int) -> int - Multiply two numbers.
{'a': {'title': 'A', 'type': 'integer'}, 'b': {'title': 'B', 'type': 'integer'}}

You can also customize the tool name and JSON args by passing them into the tool decorator.

class SearchInput(BaseModel):
    query: str = Field(description="should be a search query")


@tool("search-tool", args_schema=SearchInput, return_direct=True)
def search(query: str) -> str:
    """Look up things online."""
    return "LangChain"

print(search.name)
print(search.description)
print(search.args)
print(search.return_direct)

search-tool
search-tool(query: str) -> str - Look up things online.
{'query': {'title': 'Query', 'description': 'should be a search query', 'type': 'string'}}
True

Subclass BaseTool

You can also explicitly define a custom tool by subclassing the BaseTool class. This provides maximal control over the tool definition, but is a bit more work.

from typing import Optional, Type

from langchain.callbacks.manager import (
    AsyncCallbackManagerForToolRun,
    CallbackManagerForToolRun,
)


class SearchInput(BaseModel):
    query: str = Field(description="should be a search query")


class CalculatorInput(BaseModel):
    a: int = Field(description="first number")
    b: int = Field(description="second number")


class CustomSearchTool(BaseTool):
    name = "custom_search"
    description = "useful for when you need to answer questions about current events"
    args_schema: Type[BaseModel] = SearchInput

    def _run(
        self, query: str, run_manager: Optional[CallbackManagerForToolRun] = None
    ) -> str:
        """Use the tool."""
        return "LangChain"

    async def _arun(
        self, query: str, run_manager: Optional[AsyncCallbackManagerForToolRun] = None
    ) -> str:
        """Use the tool asynchronously."""
        raise NotImplementedError("custom_search does not support async")


class CustomCalculatorTool(BaseTool):
    name = "Calculator"
    description = "useful for when you need to answer questions about math"
    args_schema: Type[BaseModel] = CalculatorInput
    return_direct: bool = True

    def _run(
        self, a: int, b: int, run_manager: Optional[CallbackManagerForToolRun] = None
    ) -> str:
        """Use the tool."""
        return a * b

    async def _arun(
        self,
        a: int,
        b: int,
        run_manager: Optional[AsyncCallbackManagerForToolRun] = None,
    ) -> str:
        """Use the tool asynchronously."""
        raise NotImplementedError("Calculator does not support async")

API Reference:

• AsyncCallbackManagerForToolRun
• CallbackManagerForToolRun

search = CustomSearchTool()
print(search.name)
print(search.description)
print(search.args)

custom_search
useful for when you need to answer questions about current events
{'query': {'title': 'Query', 'description': 'should be a search query', 'type': 'string'}}

multiply = CustomCalculatorTool()
print(multiply.name)
print(multiply.description)
print(multiply.args)
print(multiply.return_direct)

Calculator
useful for when you need to answer questions about math
{'a': {'title': 'A', 'description': 'first number', 'type': 'integer'}, 'b': {'title': 'B', 'description': 'second number', 'type': 'integer'}}
True

StructuredTool dataclass

You can also use a StructuredTool dataclass. This methods is a mix between the previous two. It’s more convenient than inheriting from the BaseTool class, but provides more functionality than just using a decorator.

def search_function(query: str):
    return "LangChain"


search = StructuredTool.from_function(
    func=search_function,
    name="Search",
    description="useful for when you need to answer questions about current events",
    # coroutine= ... <- you can specify an async method if desired as well
)

print(search.name)
print(search.description)
print(search.args)

Search
Search(query: str) - useful for when you need to answer questions about current events
{'query': {'title': 'Query', 'type': 'string'}}

You can also define a custom args_schema to provide more information about inputs.

class CalculatorInput(BaseModel):
    a: int = Field(description="first number")
    b: int = Field(description="second number")


def multiply(a: int, b: int) -> int:
    """Multiply two numbers."""
    return a * b


calculator = StructuredTool.from_function(
    func=multiply,
    name="Calculator",
    description="multiply numbers",
    args_schema=CalculatorInput,
    return_direct=True,
    # coroutine= ... <- you can specify an async method if desired as well
)

print(calculator.name)
print(calculator.description)
print(calculator.args)

Calculator
Calculator(a: int, b: int) -> int - multiply numbers
{'a': {'title': 'A', 'description': 'first number', 'type': 'integer'}, 'b': {'title': 'B', 'description': 'second number', 'type': 'integer'}}

Handling Tool Errors

When a tool encounters an error and the exception is not caught, the agent will stop executing. If you want the agent to continue execution, you can raise a ToolException and set handle_tool_error accordingly.

When ToolException is thrown, the agent will not stop working, but will handle the exception according to the handle_tool_error variable of the tool, and the processing result will be returned to the agent as observation, and printed in red.

You can set handle_tool_error to True, set it a unified string value, or set it as a function. If it’s set as a function, the function should take a ToolException as a parameter and return a str value.

Please note that only raising a ToolException won’t be effective. You need to first set the handle_tool_error of the tool because its default value is False.

from langchain_core.tools import ToolException


def search_tool1(s: str):
    raise ToolException("The search tool1 is not available.")

API Reference:

• ToolException

First, let’s see what happens if we don’t set handle_tool_error - it will error.

search = StructuredTool.from_function(
    func=search_tool1,
    name="Search_tool1",
    description="A bad tool",
)

search.run("test")

ToolException: The search tool1 is not available.

Now, let’s set handle_tool_error to be True

search = StructuredTool.from_function(
    func=search_tool1,
    name="Search_tool1",
    description="A bad tool",
    handle_tool_error=True,
)

search.run("test")

'The search tool1 is not available.'

We can also define a custom way to handle the tool error

def _handle_error(error: ToolException) -> str:
    return (
        "The following errors occurred during tool execution:"
        + error.args[0]
        + "Please try another tool."
    )


search = StructuredTool.from_function(
    func=search_tool1,
    name="Search_tool1",
    description="A bad tool",
    handle_tool_error=_handle_error,
)

search.run("test")

'The following errors occurred during tool execution:The search tool1 is not available.Please try another tool.'