import json
from typing import Any, Callable, Dict, Literal, Optional, Sequence, Type, Union
from langchain_core._api import deprecated
from langchain_core.output_parsers import (
BaseGenerationOutputParser,
BaseOutputParser,
JsonOutputParser,
PydanticOutputParser,
)
from langchain_core.output_parsers.openai_functions import (
JsonOutputFunctionsParser,
PydanticAttrOutputFunctionsParser,
PydanticOutputFunctionsParser,
)
from langchain_core.output_parsers.openai_tools import (
JsonOutputKeyToolsParser,
PydanticToolsParser,
)
from langchain_core.prompts import BasePromptTemplate
from langchain_core.pydantic_v1 import BaseModel
from langchain_core.runnables import Runnable
from langchain_core.utils.function_calling import (
convert_to_openai_function,
convert_to_openai_tool,
)
[docs]@deprecated(
since="0.1.14",
message=(
"LangChain has introduced a method called `with_structured_output` that "
"is available on ChatModels capable of tool calling. "
"You can read more about the method here: "
"https://python.langchain.com/docs/modules/model_io/chat/structured_output/ "
"Please follow our extraction use case documentation for more guidelines "
"on how to do information extraction with LLMs. "
"https://python.langchain.com/docs/use_cases/extraction/. "
"If you notice other issues, please provide "
"feedback here: "
"https://github.com/langchain-ai/langchain/discussions/18154"
),
removal="0.3.0",
alternative=(
"""
from langchain_core.pydantic_v1 import BaseModel, Field
from langchain_anthropic import ChatAnthropic
class Joke(BaseModel):
setup: str = Field(description="The setup of the joke")
punchline: str = Field(description="The punchline to the joke")
# Or any other chat model that supports tools.
# Please reference to to the documentation of structured_output
# to see an up to date list of which models support
# with_structured_output.
model = ChatAnthropic(model="claude-3-opus-20240229", temperature=0)
structured_llm = model.with_structured_output(Joke)
structured_llm.invoke("Tell me a joke about cats.
Make sure to call the Joke function.")
"""
),
)
def create_openai_fn_runnable(
functions: Sequence[Union[Dict[str, Any], Type[BaseModel], Callable]],
llm: Runnable,
prompt: Optional[BasePromptTemplate] = None,
*,
enforce_single_function_usage: bool = True,
output_parser: Optional[Union[BaseOutputParser, BaseGenerationOutputParser]] = None,
**llm_kwargs: Any,
) -> Runnable:
"""Create a runnable sequence that uses OpenAI functions.
Args:
functions: A sequence of either dictionaries, pydantic.BaseModels classes, or
Python functions. If dictionaries are passed in, they are assumed to
already be a valid OpenAI functions. If only a single
function is passed in, then it will be enforced that the model use that
function. pydantic.BaseModels and Python functions should have docstrings
describing what the function does. For best results, pydantic.BaseModels
should have descriptions of the parameters and Python functions should have
Google Python style args descriptions in the docstring. Additionally,
Python functions should only use primitive types (str, int, float, bool) or
pydantic.BaseModels for arguments.
llm: Language model to use, assumed to support the OpenAI function-calling API.
prompt: BasePromptTemplate to pass to the model.
enforce_single_function_usage: only used if a single function is passed in. If
True, then the model will be forced to use the given function. If False,
then the model will be given the option to use the given function or not.
output_parser: BaseLLMOutputParser to use for parsing model outputs. By default
will be inferred from the function types. If pydantic.BaseModels are passed
in, then the OutputParser will try to parse outputs using those. Otherwise
model outputs will simply be parsed as JSON. If multiple functions are
passed in and they are not pydantic.BaseModels, the chain output will
include both the name of the function that was returned and the arguments
to pass to the function.
**llm_kwargs: Additional named arguments to pass to the language model.
Returns:
A runnable sequence that will pass in the given functions to the model when run.
Example:
.. code-block:: python
from typing import Optional
from langchain.chains.structured_output import create_openai_fn_runnable
from langchain_openai import ChatOpenAI
from langchain_core.pydantic_v1 import BaseModel, Field
class RecordPerson(BaseModel):
'''Record some identifying information about a person.'''
name: str = Field(..., description="The person's name")
age: int = Field(..., description="The person's age")
fav_food: Optional[str] = Field(None, description="The person's favorite food")
class RecordDog(BaseModel):
'''Record some identifying information about a dog.'''
name: str = Field(..., description="The dog's name")
color: str = Field(..., description="The dog's color")
fav_food: Optional[str] = Field(None, description="The dog's favorite food")
llm = ChatOpenAI(model="gpt-4", temperature=0)
structured_llm = create_openai_fn_runnable([RecordPerson, RecordDog], llm)
structured_llm.invoke("Harry was a chubby brown beagle who loved chicken)
# -> RecordDog(name="Harry", color="brown", fav_food="chicken")
""" # noqa: E501
if not functions:
raise ValueError("Need to pass in at least one function. Received zero.")
openai_functions = [convert_to_openai_function(f) for f in functions]
llm_kwargs_: Dict[str, Any] = {"functions": openai_functions, **llm_kwargs}
if len(openai_functions) == 1 and enforce_single_function_usage:
llm_kwargs_["function_call"] = {"name": openai_functions[0]["name"]}
output_parser = output_parser or get_openai_output_parser(functions)
if prompt:
return prompt | llm.bind(**llm_kwargs_) | output_parser
else:
return llm.bind(**llm_kwargs_) | output_parser
[docs]@deprecated(
since="0.1.17",
message=(
"LangChain has introduced a method called `with_structured_output` that "
"is available on ChatModels capable of tool calling. "
"You can read more about the method here: "
"https://python.langchain.com/docs/modules/model_io/chat/structured_output/ "
"Please follow our extraction use case documentation for more guidelines "
"on how to do information extraction with LLMs. "
"https://python.langchain.com/docs/use_cases/extraction/. "
"If you notice other issues, please provide "
"feedback here: "
"https://github.com/langchain-ai/langchain/discussions/18154"
),
removal="0.3.0",
alternative=(
"""
from langchain_core.pydantic_v1 import BaseModel, Field
from langchain_anthropic import ChatAnthropic
class Joke(BaseModel):
setup: str = Field(description="The setup of the joke")
punchline: str = Field(description="The punchline to the joke")
# Or any other chat model that supports tools.
# Please reference to to the documentation of structured_output
# to see an up to date list of which models support
# with_structured_output.
model = ChatAnthropic(model="claude-3-opus-20240229", temperature=0)
structured_llm = model.with_structured_output(Joke)
structured_llm.invoke("Tell me a joke about cats.
Make sure to call the Joke function.")
"""
),
)
def create_structured_output_runnable(
output_schema: Union[Dict[str, Any], Type[BaseModel]],
llm: Runnable,
prompt: Optional[BasePromptTemplate] = None,
*,
output_parser: Optional[Union[BaseOutputParser, BaseGenerationOutputParser]] = None,
enforce_function_usage: bool = True,
return_single: bool = True,
mode: Literal[
"openai-functions", "openai-tools", "openai-json"
] = "openai-functions",
**kwargs: Any,
) -> Runnable:
"""Create a runnable for extracting structured outputs.
Args:
output_schema: Either a dictionary or pydantic.BaseModel class. If a dictionary
is passed in, it's assumed to already be a valid JsonSchema.
For best results, pydantic.BaseModels should have docstrings describing what
the schema represents and descriptions for the parameters.
llm: Language model to use. Assumed to support the OpenAI function-calling API
if mode is 'openai-function'. Assumed to support OpenAI response_format
parameter if mode is 'openai-json'.
prompt: BasePromptTemplate to pass to the model. If mode is 'openai-json' and
prompt has input variable 'output_schema' then the given output_schema
will be converted to a JsonSchema and inserted in the prompt.
output_parser: Output parser to use for parsing model outputs. By default
will be inferred from the function types. If pydantic.BaseModel is passed
in, then the OutputParser will try to parse outputs using the pydantic
class. Otherwise model outputs will be parsed as JSON.
mode: How structured outputs are extracted from the model. If 'openai-functions'
then OpenAI function calling is used with the deprecated 'functions',
'function_call' schema. If 'openai-tools' then OpenAI function
calling with the latest 'tools', 'tool_choice' schema is used. This is
recommended over 'openai-functions'. If 'openai-json' then OpenAI model
with response_format set to JSON is used.
enforce_function_usage: Only applies when mode is 'openai-tools' or
'openai-functions'. If True, then the model will be forced to use the given
output schema. If False, then the model can elect whether to use the output
schema.
return_single: Only applies when mode is 'openai-tools'. Whether to a list of
structured outputs or a single one. If True and model does not return any
structured outputs then chain output is None. If False and model does not
return any structured outputs then chain output is an empty list.
**kwargs: Additional named arguments.
Returns:
A runnable sequence that will return a structured output(s) matching the given
output_schema.
OpenAI tools example with Pydantic schema (mode='openai-tools'):
.. code-block:: python
from typing import Optional
from langchain.chains import create_structured_output_runnable
from langchain_openai import ChatOpenAI
from langchain_core.pydantic_v1 import BaseModel, Field
class RecordDog(BaseModel):
'''Record some identifying information about a dog.'''
name: str = Field(..., description="The dog's name")
color: str = Field(..., description="The dog's color")
fav_food: Optional[str] = Field(None, description="The dog's favorite food")
llm = ChatOpenAI(model="gpt-3.5-turbo-0125", temperature=0)
prompt = ChatPromptTemplate.from_messages(
[
("system", "You are an extraction algorithm. Please extract every possible instance"),
('human', '{input}')
]
)
structured_llm = create_structured_output_runnable(
RecordDog,
llm,
mode="openai-tools",
enforce_function_usage=True,
return_single=True
)
structured_llm.invoke({"input": "Harry was a chubby brown beagle who loved chicken"})
# -> RecordDog(name="Harry", color="brown", fav_food="chicken")
OpenAI tools example with dict schema (mode="openai-tools"):
.. code-block:: python
from typing import Optional
from langchain.chains import create_structured_output_runnable
from langchain_openai import ChatOpenAI
dog_schema = {
"type": "function",
"function": {
"name": "record_dog",
"description": "Record some identifying information about a dog.",
"parameters": {
"type": "object",
"properties": {
"name": {
"description": "The dog's name",
"type": "string"
},
"color": {
"description": "The dog's color",
"type": "string"
},
"fav_food": {
"description": "The dog's favorite food",
"type": "string"
}
},
"required": ["name", "color"]
}
}
}
llm = ChatOpenAI(model="gpt-3.5-turbo-0125", temperature=0)
structured_llm = create_structured_output_runnable(
dog_schema,
llm,
mode="openai-tools",
enforce_function_usage=True,
return_single=True
)
structured_llm.invoke("Harry was a chubby brown beagle who loved chicken")
# -> {'name': 'Harry', 'color': 'brown', 'fav_food': 'chicken'}
OpenAI functions example (mode="openai-functions"):
.. code-block:: python
from typing import Optional
from langchain.chains import create_structured_output_runnable
from langchain_openai import ChatOpenAI
from langchain_core.pydantic_v1 import BaseModel, Field
class Dog(BaseModel):
'''Identifying information about a dog.'''
name: str = Field(..., description="The dog's name")
color: str = Field(..., description="The dog's color")
fav_food: Optional[str] = Field(None, description="The dog's favorite food")
llm = ChatOpenAI(model="gpt-3.5-turbo-0125", temperature=0)
structured_llm = create_structured_output_runnable(Dog, llm, mode="openai-functions")
structured_llm.invoke("Harry was a chubby brown beagle who loved chicken")
# -> Dog(name="Harry", color="brown", fav_food="chicken")
OpenAI functions with prompt example:
.. code-block:: python
from typing import Optional
from langchain.chains import create_structured_output_runnable
from langchain_openai import ChatOpenAI
from langchain_core.prompts import ChatPromptTemplate
from langchain_core.pydantic_v1 import BaseModel, Field
class Dog(BaseModel):
'''Identifying information about a dog.'''
name: str = Field(..., description="The dog's name")
color: str = Field(..., description="The dog's color")
fav_food: Optional[str] = Field(None, description="The dog's favorite food")
llm = ChatOpenAI(model="gpt-3.5-turbo-0125", temperature=0)
structured_llm = create_structured_output_runnable(Dog, llm, mode="openai-functions")
system = '''Extract information about any dogs mentioned in the user input.'''
prompt = ChatPromptTemplate.from_messages(
[("system", system), ("human", "{input}"),]
)
chain = prompt | structured_llm
chain.invoke({"input": "Harry was a chubby brown beagle who loved chicken"})
# -> Dog(name="Harry", color="brown", fav_food="chicken")
OpenAI json response format example (mode="openai-json"):
.. code-block:: python
from typing import Optional
from langchain.chains import create_structured_output_runnable
from langchain_openai import ChatOpenAI
from langchain_core.prompts import ChatPromptTemplate
from langchain_core.pydantic_v1 import BaseModel, Field
class Dog(BaseModel):
'''Identifying information about a dog.'''
name: str = Field(..., description="The dog's name")
color: str = Field(..., description="The dog's color")
fav_food: Optional[str] = Field(None, description="The dog's favorite food")
llm = ChatOpenAI(model="gpt-3.5-turbo-0125", temperature=0)
structured_llm = create_structured_output_runnable(Dog, llm, mode="openai-json")
system = '''You are a world class assistant for extracting information in structured JSON formats. \
Extract a valid JSON blob from the user input that matches the following JSON Schema:
{output_schema}'''
prompt = ChatPromptTemplate.from_messages(
[("system", system), ("human", "{input}"),]
)
chain = prompt | structured_llm
chain.invoke({"input": "Harry was a chubby brown beagle who loved chicken"})
""" # noqa: E501
# for backwards compatibility
force_function_usage = kwargs.get(
"enforce_single_function_usage", enforce_function_usage
)
if mode == "openai-tools":
# Protect against typos in kwargs
keys_in_kwargs = set(kwargs.keys())
# Backwards compatibility keys
unrecognized_keys = keys_in_kwargs - {"enforce_single_function_usage"}
if unrecognized_keys:
raise TypeError(
f"Got an unexpected keyword argument(s): {unrecognized_keys}."
)
return _create_openai_tools_runnable(
output_schema,
llm,
prompt=prompt,
output_parser=output_parser,
enforce_tool_usage=force_function_usage,
first_tool_only=return_single,
)
elif mode == "openai-functions":
return _create_openai_functions_structured_output_runnable(
output_schema,
llm,
prompt=prompt,
output_parser=output_parser,
enforce_single_function_usage=force_function_usage,
**kwargs, # llm-specific kwargs
)
elif mode == "openai-json":
if force_function_usage:
raise ValueError(
"enforce_single_function_usage is not supported for mode='openai-json'."
)
return _create_openai_json_runnable(
output_schema, llm, prompt=prompt, output_parser=output_parser, **kwargs
)
else:
raise ValueError(
f"Invalid mode {mode}. Expected one of 'openai-tools', 'openai-functions', "
f"'openai-json'."
)
def _create_openai_tools_runnable(
tool: Union[Dict[str, Any], Type[BaseModel], Callable],
llm: Runnable,
*,
prompt: Optional[BasePromptTemplate],
output_parser: Optional[Union[BaseOutputParser, BaseGenerationOutputParser]],
enforce_tool_usage: bool,
first_tool_only: bool,
) -> Runnable:
oai_tool = convert_to_openai_tool(tool)
llm_kwargs: Dict[str, Any] = {"tools": [oai_tool]}
if enforce_tool_usage:
llm_kwargs["tool_choice"] = {
"type": "function",
"function": {"name": oai_tool["function"]["name"]},
}
output_parser = output_parser or _get_openai_tool_output_parser(
tool, first_tool_only=first_tool_only
)
if prompt:
return prompt | llm.bind(**llm_kwargs) | output_parser
else:
return llm.bind(**llm_kwargs) | output_parser
def _get_openai_tool_output_parser(
tool: Union[Dict[str, Any], Type[BaseModel], Callable],
*,
first_tool_only: bool = False,
) -> Union[BaseOutputParser, BaseGenerationOutputParser]:
if isinstance(tool, type) and issubclass(tool, BaseModel):
output_parser: Union[
BaseOutputParser, BaseGenerationOutputParser
] = PydanticToolsParser(tools=[tool], first_tool_only=first_tool_only)
else:
key_name = convert_to_openai_tool(tool)["function"]["name"]
output_parser = JsonOutputKeyToolsParser(
first_tool_only=first_tool_only, key_name=key_name
)
return output_parser
[docs]def get_openai_output_parser(
functions: Sequence[Union[Dict[str, Any], Type[BaseModel], Callable]],
) -> Union[BaseOutputParser, BaseGenerationOutputParser]:
"""Get the appropriate function output parser given the user functions.
Args:
functions: Sequence where element is a dictionary, a pydantic.BaseModel class,
or a Python function. If a dictionary is passed in, it is assumed to
already be a valid OpenAI function.
Returns:
A PydanticOutputFunctionsParser if functions are Pydantic classes, otherwise
a JsonOutputFunctionsParser. If there's only one function and it is
not a Pydantic class, then the output parser will automatically extract
only the function arguments and not the function name.
"""
if isinstance(functions[0], type) and issubclass(functions[0], BaseModel):
if len(functions) > 1:
pydantic_schema: Union[Dict, Type[BaseModel]] = {
convert_to_openai_function(fn)["name"]: fn for fn in functions
}
else:
pydantic_schema = functions[0]
output_parser: Union[
BaseOutputParser, BaseGenerationOutputParser
] = PydanticOutputFunctionsParser(pydantic_schema=pydantic_schema)
else:
output_parser = JsonOutputFunctionsParser(args_only=len(functions) <= 1)
return output_parser
def _create_openai_json_runnable(
output_schema: Union[Dict[str, Any], Type[BaseModel]],
llm: Runnable,
prompt: Optional[BasePromptTemplate] = None,
*,
output_parser: Optional[Union[BaseOutputParser, BaseGenerationOutputParser]] = None,
) -> Runnable:
""""""
if isinstance(output_schema, type) and issubclass(output_schema, BaseModel):
output_parser = output_parser or PydanticOutputParser(
pydantic_object=output_schema,
)
schema_as_dict = convert_to_openai_function(output_schema)["parameters"]
else:
output_parser = output_parser or JsonOutputParser()
schema_as_dict = output_schema
llm = llm.bind(response_format={"type": "json_object"})
if prompt:
if "output_schema" in prompt.input_variables:
prompt = prompt.partial(output_schema=json.dumps(schema_as_dict, indent=2))
return prompt | llm | output_parser
else:
return llm | output_parser
def _create_openai_functions_structured_output_runnable(
output_schema: Union[Dict[str, Any], Type[BaseModel]],
llm: Runnable,
prompt: Optional[BasePromptTemplate] = None,
*,
output_parser: Optional[Union[BaseOutputParser, BaseGenerationOutputParser]] = None,
**llm_kwargs: Any,
) -> Runnable:
if isinstance(output_schema, dict):
function: Any = {
"name": "output_formatter",
"description": (
"Output formatter. Should always be used to format your response to the"
" user."
),
"parameters": output_schema,
}
else:
class _OutputFormatter(BaseModel):
"""Output formatter. Should always be used to format your response to the user.""" # noqa: E501
output: output_schema # type: ignore
function = _OutputFormatter
output_parser = output_parser or PydanticAttrOutputFunctionsParser(
pydantic_schema=_OutputFormatter, attr_name="output"
)
return create_openai_fn_runnable(
[function],
llm,
prompt=prompt,
output_parser=output_parser,
**llm_kwargs,
)