A Python library for managing and executing tools in a structured way.
- Tool registration and management
- JSON Schema generation for tool parameters
- Tool execution and result handling
- Support for both synchronous and asynchronous tools
- Support native Python functions and class methods as tools
- Support multiple MCP transport methods: STDIO, streamable HTTP, SSE, WebSocket, FastMCP instance, etc.
- Support OpenAPI tools
Full documentation is available at https://toolregistry.lab.oaklight.cn
As of version 0.4.12, the previously deprecated methods ToolRegistry.register_static_tools, ToolRegistry.register_mcp_tools, and ToolRegistry.register_openapi_tools have been REMOVED. Users must update their implementations to use the new methods: ToolRegistry.register_from_class, ToolRegistry.register_from_mcp, and ToolRegistry.register_from_openapi. Please ensure your codebase is compatible with this update for uninterrupted functionality.
Install the core package (requires Python >= 3.8):
pip install toolregistryExtra modules can be installed by specifying extras in brackets. For example, to install specific extra supports:
pip install toolregistry[mcp,openapi]Below is a table summarizing available extra modules:
| Extra Module | Python Requirement | Example Command |
|---|---|---|
| mcp | Python >= 3.10 | pip install toolregistry[mcp] |
| openapi | Python >= 3.8 | pip install toolregistry[openapi] |
| langchain | Python >= 3.9 | pip install toolregistry[langchain] |
The openai_tool_usage_example.py shows how to integrate ToolRegistry with OpenAI's API.
The cicada_tool_usage_example.py demonstrates how to use ToolRegistry with the Cicada MultiModalModel.
This section demonstrates how to invoke a basic tool. Example:
from toolregistry import ToolRegistry
registry = ToolRegistry()
@registry.register
def add(a: float, b: float) -> float:
"""Add two numbers together."""
return a + b
available_tools = registry.get_available_tools()
print(available_tools) # ['add']
add_func = registry.get_callable('add')
print(type(add_func)) # <class 'function'>
add_result = add_func(1, 2)
print(add_result) # 3
add_func = registry['add']
print(type(add_func)) # <class 'function'>
add_result = add_func(4, 5)
print(add_result) # 9For more usage examples, please refer to Documentation - Usage
The ToolRegistry provides first-class support for MCP (Model Context Protocol) tools with multiple transport options:
# transport can be a URL string, script path, transport instance, or MCP instance.
transport = "https://mcphub.url/mcp" # Streamable HTTP MCP
transport = "http://localhost:8000/sse/test_group" # Legacy HTTP+SSE
transport = "examples/mcp_related/mcp_servers/math_server.py" # Local path
transport = {
"mcpServers": {
"make_mcp": {
"command": f"{Path.home()}/mambaforge/envs/toolregistry_dev/bin/python",
"args": [
f"{Path.home()}/projects/toolregistry/examples/mcp_related/mcp_servers/math_server.py"
],
"env": {},
}
}
} # MCP configuration dictionary example
transport = FastMCP(name="MyFastMCP") # FastMCP instance
transport = StreamableHttpTransport(url="https://mcphub.example.com/mcp", headers={"Authorization": "Bearer token"}) # Transport instance with custom headers
registry.register_from_mcp(transport)
# Get all tools' JSON, including MCP tools
tools_json = registry.get_tools_json()The register_from_openapi method now accepts two parameters:
client_config: atoolregistry.openapi.HttpxClientConfigobject that configures the HTTP client used to interact with the API. You can configure the headers, authorization, timeout, and other settings. Allowing greater flexibility than the previous version.openapi_spec: The OpenAPI specification asDict[str, Any], loaded with a function likeload_openapi_specorload_openapi_spec_async. These functions accept a file path or a URL to the OpenAPI specification or a URL to the base api and return the parsed OpenAPI specification as a dictionary.
Example:
from toolregistry.openapi import HttpxClientConfig, load_openapi_spec
client_config = HttpxClientConfig(base_url="http://localhost:8000")
openapi_spec = load_openapi_spec("./openapi_spec.json")
openapi_spec = load_openapi_spec("http://localhost:8000")
openapi_spec = load_openapi_spec("http://localhost:8000/openapi.json")
registry.register_from_openapi(
client_config=client_config,
openapi_spec=openapi_spec
)
# Get all tools' JSON, including OpenAPI tools
tools_json = registry.get_tools_json()When using the functions load_openapi_spec or load_openapi_spec_async, the following behaviors apply:
-
Base URL provided: If you specify only a base URL (e.g.,
http://localhost:8000), the loader will attempt "best effort" auto-discovery to locate the OpenAPI specification file. It checks endpoints such ashttp://<base_url>/openapi.jsonorhttp://<base_url>/swagger.json. If auto-discovery fails, ensure the base URL is accurate and the specification is accessible. -
File path provided: If you provide a file path (e.g.,
./openapi_spec.json), the function will load the OpenAPI specification directly from the file. Unlike simple direct load, the functionality includes unwinding$refblocks commonly found in OpenAPI specifications. This ensures that any schema references are fully resolved within the returned dictionary.
The LangChain integration module allows ToolRegistry to register and invoke LangChain tools seamlessly, supporting both synchronous and asynchronous calls.
from langchain_community.tools import ArxivQueryRun, PubmedQueryRun
from toolregistry import ToolRegistry
registry = ToolRegistry()
registry.register_from_langchain([ArxivQueryRun(), PubmedQueryRun()])
tools_json = registry.get_tools_json()Class tools are registered to ToolRegistry using the register_from_class method. This allows developers to extend the functionality of ToolRegistry by creating custom tool classes with reusable methods.
Example:
from toolregistry import ToolRegistry
class StaticExample:
@staticmethod
def greet(name: str) -> str:
return f"Hello, {name}!"
class InstanceExample:
def __init__(self, name: str):
self.name = name
def greet(self, name: str) -> str:
return f"Hello, {name}! I'm {self.name}."
registry = ToolRegistry()
registry.register_from_class(StaticExample, with_namespace=True)
print(registry.get_available_tools()) # ['static_example.greet']
print(registry["static_example.greet"]("Alice")) # Hello, Alice!
registry = ToolRegistry()
registry.register_from_class(InstanceExample("Bob"), with_namespace=True)
print(registry.get_available_tools()) # ['instance_example.greet']
print(registry["instance_example.greet"]("Alice")) # Hello, Alice! I'm Bob.Hub tools encapsulate commonly used functionalities as methods in classes. Examples of available hub tools include:
- Calculator: Basic arithmetic, scientific operations, statistical functions, financial calculations, and more.
- FileOps: File manipulation like diff generation, patching, verification, merging, and splitting.
- Filesystem: Comprehensive file system operations such as directory listing, file read/write, path normalization, and querying file attributes.
- UnitConverter: Extensive unit conversions such as temperature, length, weight, volume, etc.
- WebSearch: Web search functionality supporting multiple engines like Bing, Google and SearXNG, etc.
- Fetch: Fetching content from URL.
To register hub tools:
from toolregistry import ToolRegistry
from toolregistry.hub import Calculator
registry = ToolRegistry()
registry.register_from_class(Calculator, with_namespace=True)
# Get available tools list
print(registry.get_available_tools())
# Output: ['Calculator.add', 'Calculator.subtract', ..., 'Calculator.multiply', ...]We welcome community contributions of new tool classes to ToolRegistry! If you have designs or implementations for other commonly used tools, feel free to submit them through a Pull Request on the GitHub Repository. Your contributions will help expand the diversity and usability of the tools.
If you use ToolRegistry in your research or project, please consider cite it as:
@software{toolregistry2025,
title={ToolRegistry: A Protocol-Agnostic Tool Management Library for OpenAI-Compatible LLM Applications},
author={Peng Ding},
year={2025},
url={https://github.com/Oaklight/ToolRegistry},
note={A Python library for unified tool registration, execution, and management across multiple protocols in OpenAI-compatible LLM applications}
}This project is licensed under the MIT License - see the LICENSE file for details.