How to return structured data from a model
This guide assumes familiarity with the following concepts:
It is often useful to have a model return output that matches a specific schema. One common use-case is extracting data from text to insert into a database or use with some other downstream system. This guide covers a few strategies for getting structured outputs from a model.
The .with_structured_output()
methodβ
You can find a list of models that support this method here.
This is the easiest and most reliable way to get structured outputs. with_structured_output()
is implemented for models that provide native APIs for structuring outputs, like tool/function calling or JSON mode, and makes use of these capabilities under the hood.
This method takes a schema as input which specifies the names, types, and descriptions of the desired output attributes. The method returns a model-like Runnable, except that instead of outputting strings or Messages it outputs objects corresponding to the given schema. The schema can be specified as a TypedDict class, JSON Schema or a Pydantic class. If TypedDict or JSON Schema are used then a dictionary will be returned by the Runnable, and if a Pydantic class is used then a Pydantic object will be returned.
As an example, let's get a model to generate a joke and separate the setup from the punchline:
- OpenAI
- Anthropic
- Azure
- Cohere
- NVIDIA
- FireworksAI
- Groq
- MistralAI
- TogetherAI
- AWS
pip install -qU langchain-openai
import getpass
import os
os.environ["OPENAI_API_KEY"] = getpass.getpass()
from langchain_openai import ChatOpenAI
llm = ChatOpenAI(model="gpt-4o-mini")
pip install -qU langchain-anthropic
import getpass
import os
os.environ["ANTHROPIC_API_KEY"] = getpass.getpass()
from langchain_anthropic import ChatAnthropic
llm = ChatAnthropic(model="claude-3-5-sonnet-20240620")
pip install -qU langchain-openai
import getpass
import os
os.environ["AZURE_OPENAI_API_KEY"] = getpass.getpass()
from langchain_openai import AzureChatOpenAI
llm = AzureChatOpenAI(
azure_endpoint=os.environ["AZURE_OPENAI_ENDPOINT"],
azure_deployment=os.environ["AZURE_OPENAI_DEPLOYMENT_NAME"],
openai_api_version=os.environ["AZURE_OPENAI_API_VERSION"],
)
pip install -qU langchain-google-vertexai
import getpass
import os
os.environ["GOOGLE_API_KEY"] = getpass.getpass()
from langchain_google_vertexai import ChatVertexAI
llm = ChatVertexAI(model="gemini-1.5-flash")
pip install -qU langchain-cohere
import getpass
import os
os.environ["COHERE_API_KEY"] = getpass.getpass()
from langchain_cohere import ChatCohere
llm = ChatCohere(model="command-r-plus")
pip install -qU langchain-nvidia-ai-endpoints
import getpass
import os
os.environ["NVIDIA_API_KEY"] = getpass.getpass()
from langchain import ChatNVIDIA
llm = ChatNVIDIA(model="meta/llama3-70b-instruct")
pip install -qU langchain-fireworks
import getpass
import os
os.environ["FIREWORKS_API_KEY"] = getpass.getpass()
from langchain_fireworks import ChatFireworks
llm = ChatFireworks(model="accounts/fireworks/models/llama-v3p1-70b-instruct")
pip install -qU langchain-groq
import getpass
import os
os.environ["GROQ_API_KEY"] = getpass.getpass()
from langchain_groq import ChatGroq
llm = ChatGroq(model="llama3-8b-8192")
pip install -qU langchain-mistralai
import getpass
import os
os.environ["MISTRAL_API_KEY"] = getpass.getpass()
from langchain_mistralai import ChatMistralAI
llm = ChatMistralAI(model="mistral-large-latest")
pip install -qU langchain-openai
import getpass
import os
os.environ["TOGETHER_API_KEY"] = getpass.getpass()
from langchain_openai import ChatOpenAI
llm = ChatOpenAI(
base_url="https://api.together.xyz/v1",
api_key=os.environ["TOGETHER_API_KEY"],
model="mistralai/Mixtral-8x7B-Instruct-v0.1",
)
pip install -qU langchain-aws
# Ensure your AWS credentials are configured
from langchain_aws import ChatBedrock
llm = ChatBedrock(model_id="anthropic.claude-3-5-sonnet-20240620-v1:0")
Pydantic classβ
If we want the model to return a Pydantic object, we just need to pass in the desired Pydantic class. The key advantage of using Pydantic is that the model-generated output will be validated. Pydantic will raise an error if any required fields are missing or if any fields are of the wrong type.
from typing import Optional
from pydantic import BaseModel, Field
# Pydantic
class Joke(BaseModel):
"""Joke to tell user."""
setup: str = Field(description="The setup of the joke")
punchline: str = Field(description="The punchline to the joke")
rating: Optional[int] = Field(
default=None, description="How funny the joke is, from 1 to 10"
)
structured_llm = llm.with_structured_output(Joke)
structured_llm.invoke("Tell me a joke about cats")
Joke(setup='Why was the cat sitting on the computer?', punchline='Because it wanted to keep an eye on the mouse!', rating=7)
Beyond just the structure of the Pydantic class, the name of the Pydantic class, the docstring, and the names and provided descriptions of parameters are very important. Most of the time with_structured_output
is using a model's function/tool calling API, and you can effectively think of all of this information as being added to the model prompt.
TypedDict or JSON Schemaβ
If you don't want to use Pydantic, explicitly don't want validation of the arguments, or want to be able to stream the model outputs, you can define your schema using a TypedDict class. We can optionally use a special Annotated
syntax supported by LangChain that allows you to specify the default value and description of a field. Note, the default value is not filled in automatically if the model doesn't generate it, it is only used in defining the schema that is passed to the model.
- Core:
langchain-core>=0.2.26
- Typing extensions: It is highly recommended to import
Annotated
andTypedDict
fromtyping_extensions
instead oftyping
to ensure consistent behavior across Python versions.
from typing_extensions import Annotated, TypedDict
# TypedDict
class Joke(TypedDict):
"""Joke to tell user."""
setup: Annotated[str, ..., "The setup of the joke"]
# Alternatively, we could have specified setup as:
# setup: str # no default, no description
# setup: Annotated[str, ...] # no default, no description
# setup: Annotated[str, "foo"] # default, no description
punchline: Annotated[str, ..., "The punchline of the joke"]
rating: Annotated[Optional[int], None, "How funny the joke is, from 1 to 10"]
structured_llm = llm.with_structured_output(Joke)
structured_llm.invoke("Tell me a joke about cats")
{'setup': 'Why was the cat sitting on the computer?',
'punchline': 'Because it wanted to keep an eye on the mouse!',
'rating': 7}
Equivalently, we can pass in a JSON Schema dict. This requires no imports or classes and makes it very clear exactly how each parameter is documented, at the cost of being a bit more verbose.
json_schema = {
"title": "joke",
"description": "Joke to tell user.",
"type": "object",
"properties": {
"setup": {
"type": "string",
"description": "The setup of the joke",
},
"punchline": {
"type": "string",
"description": "The punchline to the joke",
},
"rating": {
"type": "integer",
"description": "How funny the joke is, from 1 to 10",
"default": None,
},
},
"required": ["setup", "punchline"],
}
structured_llm = llm.with_structured_output(json_schema)
structured_llm.invoke("Tell me a joke about cats")
{'setup': 'Why was the cat sitting on the computer?',
'punchline': 'Because it wanted to keep an eye on the mouse!',
'rating': 7}
Choosing between multiple schemasβ
The simplest way to let the model choose from multiple schemas is to create a parent schema that has a Union-typed attribute:
from typing import Union
# Pydantic
class Joke(BaseModel):
"""Joke to tell user."""
setup: str = Field(description="The setup of the joke")
punchline: str = Field(description="The punchline to the joke")
rating: Optional[int] = Field(
default=None, description="How funny the joke is, from 1 to 10"
)
class ConversationalResponse(BaseModel):
"""Respond in a conversational manner. Be kind and helpful."""
response: str = Field(description="A conversational response to the user's query")
class FinalResponse(BaseModel):
final_output: Union[Joke, ConversationalResponse]
structured_llm = llm.with_structured_output(FinalResponse)
structured_llm.invoke("Tell me a joke about cats")
FinalResponse(final_output=Joke(setup='Why was the cat sitting on the computer?', punchline='Because it wanted to keep an eye on the mouse!', rating=7))
structured_llm.invoke("How are you today?")
FinalResponse(final_output=ConversationalResponse(response="I'm just a bunch of code, so I don't have feelings, but I'm here and ready to help you! How can I assist you today?"))
Alternatively, you can use tool calling directly to allow the model to choose between options, if your chosen model supports it. This involves a bit more parsing and setup but in some instances leads to better performance because you don't have to use nested schemas. See this how-to guide for more details.
Streamingβ
We can stream outputs from our structured model when the output type is a dict (i.e., when the schema is specified as a TypedDict class or JSON Schema dict).
Note that what's yielded is already aggregated chunks, not deltas.
from typing_extensions import Annotated, TypedDict
# TypedDict
class Joke(TypedDict):
"""Joke to tell user."""
setup: Annotated[str, ..., "The setup of the joke"]
punchline: Annotated[str, ..., "The punchline of the joke"]
rating: Annotated[Optional[int], None, "How funny the joke is, from 1 to 10"]
structured_llm = llm.with_structured_output(Joke)
for chunk in structured_llm.stream("Tell me a joke about cats"):
print(chunk)
{}
{'setup': ''}
{'setup': 'Why'}
{'setup': 'Why was'}
{'setup': 'Why was the'}
{'setup': 'Why was the cat'}
{'setup': 'Why was the cat sitting'}
{'setup': 'Why was the cat sitting on'}
{'setup': 'Why was the cat sitting on the'}
{'setup': 'Why was the cat sitting on the computer'}
{'setup': 'Why was the cat sitting on the computer?'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': ''}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on the'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on the mouse'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on the mouse!'}
{'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on the mouse!', 'rating': 7}
Few-shot promptingβ
For more complex schemas it's very useful to add few-shot examples to the prompt. This can be done in a few ways.
The simplest and most universal way is to add examples to a system message in the prompt:
from langchain_core.prompts import ChatPromptTemplate
system = """You are a hilarious comedian. Your specialty is knock-knock jokes. \
Return a joke which has the setup (the response to "Who's there?") and the final punchline (the response to "<setup> who?").
Here are some examples of jokes:
example_user: Tell me a joke about planes
example_assistant: {{"setup": "Why don't planes ever get tired?", "punchline": "Because they have rest wings!", "rating": 2}}
example_user: Tell me another joke about planes
example_assistant: {{"setup": "Cargo", "punchline": "Cargo 'vroom vroom', but planes go 'zoom zoom'!", "rating": 10}}
example_user: Now about caterpillars
example_assistant: {{"setup": "Caterpillar", "punchline": "Caterpillar really slow, but watch me turn into a butterfly and steal the show!", "rating": 5}}"""
prompt = ChatPromptTemplate.from_messages([("system", system), ("human", "{input}")])
few_shot_structured_llm = prompt | structured_llm
few_shot_structured_llm.invoke("what's something funny about woodpeckers")
{'setup': 'Woodpecker',
'punchline': "Woodpecker who? Woodpecker who can't find a tree is just a bird with a headache!",
'rating': 7}
When the underlying method for structuring outputs is tool calling, we can pass in our examples as explicit tool calls. You can check if the model you're using makes use of tool calling in its API reference.
from langchain_core.messages import AIMessage, HumanMessage, ToolMessage
examples = [
HumanMessage("Tell me a joke about planes", name="example_user"),
AIMessage(
"",
name="example_assistant",
tool_calls=[
{
"name": "joke",
"args": {
"setup": "Why don't planes ever get tired?",
"punchline": "Because they have rest wings!",
"rating": 2,
},
"id": "1",
}
],
),
# Most tool-calling models expect a ToolMessage(s) to follow an AIMessage with tool calls.
ToolMessage("", tool_call_id="1"),
# Some models also expect an AIMessage to follow any ToolMessages,
# so you may need to add an AIMessage here.
HumanMessage("Tell me another joke about planes", name="example_user"),
AIMessage(
"",
name="example_assistant",
tool_calls=[
{
"name": "joke",
"args": {
"setup": "Cargo",
"punchline": "Cargo 'vroom vroom', but planes go 'zoom zoom'!",
"rating": 10,
},
"id": "2",
}
],
),
ToolMessage("", tool_call_id="2"),
HumanMessage("Now about caterpillars", name="example_user"),
AIMessage(
"",
tool_calls=[
{
"name": "joke",
"args": {
"setup": "Caterpillar",
"punchline": "Caterpillar really slow, but watch me turn into a butterfly and steal the show!",
"rating": 5,
},
"id": "3",
}
],
),
ToolMessage("", tool_call_id="3"),
]
system = """You are a hilarious comedian. Your specialty is knock-knock jokes. \
Return a joke which has the setup (the response to "Who's there?") \
and the final punchline (the response to "<setup> who?")."""
prompt = ChatPromptTemplate.from_messages(
[("system", system), ("placeholder", "{examples}"), ("human", "{input}")]
)
few_shot_structured_llm = prompt | structured_llm
few_shot_structured_llm.invoke({"input": "crocodiles", "examples": examples})
{'setup': 'Crocodile',
'punchline': 'Crocodile be seeing you later, alligator!',
'rating': 7}
For more on few shot prompting when using tool calling, see here.
(Advanced) Specifying the method for structuring outputsβ
For models that support more than one means of structuring outputs (i.e., they support both tool calling and JSON mode), you can specify which method to use with the method=
argument.
If using JSON mode you'll have to still specify the desired schema in the model prompt. The schema you pass to with_structured_output
will only be used for parsing the model outputs, it will not be passed to the model the way it is with tool calling.
To see if the model you're using supports JSON mode, check its entry in the API reference.
structured_llm = llm.with_structured_output(None, method="json_mode")
structured_llm.invoke(
"Tell me a joke about cats, respond in JSON with `setup` and `punchline` keys"
)
{'setup': 'Why was the cat sitting on the computer?',
'punchline': 'Because it wanted to keep an eye on the mouse!'}
(Advanced) Raw outputsβ
LLMs aren't perfect at generating structured output, especially as schemas become complex. You can avoid raising exceptions and handle the raw output yourself by passing include_raw=True
. This changes the output format to contain the raw message output, the parsed
value (if successful), and any resulting errors:
structured_llm = llm.with_structured_output(Joke, include_raw=True)
structured_llm.invoke("Tell me a joke about cats")
{'raw': AIMessage(content='', additional_kwargs={'tool_calls': [{'id': 'call_f25ZRmh8u5vHlOWfTUw8sJFZ', 'function': {'arguments': '{"setup":"Why was the cat sitting on the computer?","punchline":"Because it wanted to keep an eye on the mouse!","rating":7}', 'name': 'Joke'}, 'type': 'function'}]}, response_metadata={'token_usage': {'completion_tokens': 33, 'prompt_tokens': 93, 'total_tokens': 126}, 'model_name': 'gpt-4o-2024-05-13', 'system_fingerprint': 'fp_4e2b2da518', 'finish_reason': 'stop', 'logprobs': None}, id='run-d880d7e2-df08-4e9e-ad92-dfc29f2fd52f-0', tool_calls=[{'name': 'Joke', 'args': {'setup': 'Why was the cat sitting on the computer?', 'punchline': 'Because it wanted to keep an eye on the mouse!', 'rating': 7}, 'id': 'call_f25ZRmh8u5vHlOWfTUw8sJFZ', 'type': 'tool_call'}], usage_metadata={'input_tokens': 93, 'output_tokens': 33, 'total_tokens': 126}),
'parsed': {'setup': 'Why was the cat sitting on the computer?',
'punchline': 'Because it wanted to keep an eye on the mouse!',
'rating': 7},
'parsing_error': None}
Prompting and parsing model outputs directlyβ
Not all models support .with_structured_output()
, since not all models have tool calling or JSON mode support. For such models you'll need to directly prompt the model to use a specific format, and use an output parser to extract the structured response from the raw model output.
Using PydanticOutputParser
β
The following example uses the built-in PydanticOutputParser
to parse the output of a chat model prompted to match the given Pydantic schema. Note that we are adding format_instructions
directly to the prompt from a method on the parser:
from typing import List
from langchain_core.output_parsers import PydanticOutputParser
from langchain_core.prompts import ChatPromptTemplate
from pydantic import BaseModel, Field
class Person(BaseModel):
"""Information about a person."""
name: str = Field(..., description="The name of the person")
height_in_meters: float = Field(
..., description="The height of the person expressed in meters."
)
class People(BaseModel):
"""Identifying information about all people in a text."""
people: List[Person]
# Set up a parser
parser = PydanticOutputParser(pydantic_object=People)
# Prompt
prompt = ChatPromptTemplate.from_messages(
[
(
"system",
"Answer the user query. Wrap the output in `json` tags\n{format_instructions}",
),
("human", "{query}"),
]
).partial(format_instructions=parser.get_format_instructions())
Letβs take a look at what information is sent to the model:
query = "Anna is 23 years old and she is 6 feet tall"
print(prompt.invoke(query).to_string())
System: Answer the user query. Wrap the output in `json` tags
The output should be formatted as a JSON instance that conforms to the JSON schema below.
As an example, for the schema {"properties": {"foo": {"title": "Foo", "description": "a list of strings", "type": "array", "items": {"type": "string"}}}, "required": ["foo"]}
the object {"foo": ["bar", "baz"]} is a well-formatted instance of the schema. The object {"properties": {"foo": ["bar", "baz"]}} is not well-formatted.
Here is the output schema:
\`\`\`
{"description": "Identifying information about all people in a text.", "properties": {"people": {"title": "People", "type": "array", "items": {"$ref": "#/definitions/Person"}}}, "required": ["people"], "definitions": {"Person": {"title": "Person", "description": "Information about a person.", "type": "object", "properties": {"name": {"title": "Name", "description": "The name of the person", "type": "string"}, "height_in_meters": {"title": "Height In Meters", "description": "The height of the person expressed in meters.", "type": "number"}}, "required": ["name", "height_in_meters"]}}}
\`\`\`
Human: Anna is 23 years old and she is 6 feet tall
And now let's invoke it:
chain = prompt | llm | parser
chain.invoke({"query": query})
People(people=[Person(name='Anna', height_in_meters=1.8288)])
For a deeper dive into using output parsers with prompting techniques for structured output, see this guide.
Custom Parsingβ
You can also create a custom prompt and parser with LangChain Expression Language (LCEL), using a plain function to parse the output from the model:
import json
import re
from typing import List
from langchain_core.messages import AIMessage
from langchain_core.prompts import ChatPromptTemplate
from pydantic import BaseModel, Field
class Person(BaseModel):
"""Information about a person."""
name: str = Field(..., description="The name of the person")
height_in_meters: float = Field(
..., description="The height of the person expressed in meters."
)
class People(BaseModel):
"""Identifying information about all people in a text."""
people: List[Person]
# Prompt
prompt = ChatPromptTemplate.from_messages(
[
(
"system",
"Answer the user query. Output your answer as JSON that "
"matches the given schema: \`\`\`json\n{schema}\n\`\`\`. "
"Make sure to wrap the answer in \`\`\`json and \`\`\` tags",
),
("human", "{query}"),
]
).partial(schema=People.schema())
# Custom parser
def extract_json(message: AIMessage) -> List[dict]:
"""Extracts JSON content from a string where JSON is embedded between \`\`\`json and \`\`\` tags.
Parameters:
text (str): The text containing the JSON content.
Returns:
list: A list of extracted JSON strings.
"""
text = message.content
# Define the regular expression pattern to match JSON blocks
pattern = r"\`\`\`json(.*?)\`\`\`"
# Find all non-overlapping matches of the pattern in the string
matches = re.findall(pattern, text, re.DOTALL)
# Return the list of matched JSON strings, stripping any leading or trailing whitespace
try:
return [json.loads(match.strip()) for match in matches]
except Exception:
raise ValueError(f"Failed to parse: {message}")
Here is the prompt sent to the model:
query = "Anna is 23 years old and she is 6 feet tall"
print(prompt.format_prompt(query=query).to_string())
System: Answer the user query. Output your answer as JSON that matches the given schema: \`\`\`json
{'title': 'People', 'description': 'Identifying information about all people in a text.', 'type': 'object', 'properties': {'people': {'title': 'People', 'type': 'array', 'items': {'$ref': '#/definitions/Person'}}}, 'required': ['people'], 'definitions': {'Person': {'title': 'Person', 'description': 'Information about a person.', 'type': 'object', 'properties': {'name': {'title': 'Name', 'description': 'The name of the person', 'type': 'string'}, 'height_in_meters': {'title': 'Height In Meters', 'description': 'The height of the person expressed in meters.', 'type': 'number'}}, 'required': ['name', 'height_in_meters']}}}
\`\`\`. Make sure to wrap the answer in \`\`\`json and \`\`\` tags
Human: Anna is 23 years old and she is 6 feet tall
And here's what it looks like when we invoke it:
chain = prompt | llm | extract_json
chain.invoke({"query": query})
[{'people': [{'name': 'Anna', 'height_in_meters': 1.8288}]}]