from __future__ import annotations
import asyncio
import base64
import json
import logging
import os
import uuid
import warnings
from io import BytesIO
from operator import itemgetter
from typing import (
Any,
AsyncIterator,
Callable,
Dict,
Iterator,
List,
Mapping,
Optional,
Sequence,
Tuple,
Type,
Union,
cast,
)
from urllib.parse import urlparse
import google.api_core
# TODO: remove ignore once the google package is published with types
import proto # type: ignore[import]
import requests
from google.ai.generativelanguage_v1beta.types import (
Candidate,
Content,
FunctionCall,
FunctionResponse,
GenerateContentRequest,
GenerateContentResponse,
GenerationConfig,
Part,
SafetySetting,
ToolConfig,
)
from google.generativeai.types import Tool as GoogleTool # type: ignore[import]
from google.generativeai.types.content_types import ( # type: ignore[import]
FunctionDeclarationType,
ToolDict,
)
from langchain_core.callbacks.manager import (
AsyncCallbackManagerForLLMRun,
CallbackManagerForLLMRun,
)
from langchain_core.language_models import LanguageModelInput
from langchain_core.language_models.chat_models import BaseChatModel, LangSmithParams
from langchain_core.messages import (
AIMessage,
AIMessageChunk,
BaseMessage,
FunctionMessage,
HumanMessage,
SystemMessage,
ToolMessage,
)
from langchain_core.messages.ai import UsageMetadata
from langchain_core.messages.tool import invalid_tool_call, tool_call, tool_call_chunk
from langchain_core.output_parsers.base import OutputParserLike
from langchain_core.output_parsers.openai_tools import (
JsonOutputToolsParser,
PydanticToolsParser,
parse_tool_calls,
)
from langchain_core.outputs import ChatGeneration, ChatGenerationChunk, ChatResult
from langchain_core.pydantic_v1 import BaseModel, Field, SecretStr, root_validator
from langchain_core.runnables import Runnable, RunnablePassthrough
from langchain_core.utils import get_from_dict_or_env
from langchain_core.utils.pydantic import is_basemodel_subclass
from tenacity import (
before_sleep_log,
retry,
retry_if_exception_type,
stop_after_attempt,
wait_exponential,
)
from langchain_google_genai._common import (
GoogleGenerativeAIError,
SafetySettingDict,
get_client_info,
)
from langchain_google_genai._function_utils import (
_tool_choice_to_tool_config,
_ToolChoiceType,
_ToolConfigDict,
convert_to_genai_function_declarations,
tool_to_dict,
)
from langchain_google_genai._image_utils import ImageBytesLoader
from langchain_google_genai.llms import _BaseGoogleGenerativeAI
from . import _genai_extension as genaix
IMAGE_TYPES: Tuple = ()
try:
import PIL
from PIL.Image import Image
IMAGE_TYPES = IMAGE_TYPES + (Image,)
except ImportError:
PIL = None # type: ignore
Image = None # type: ignore
logger = logging.getLogger(__name__)
[docs]
class ChatGoogleGenerativeAIError(GoogleGenerativeAIError):
"""
Custom exception class for errors associated with the `Google GenAI` API.
This exception is raised when there are specific issues related to the
Google genai API usage in the ChatGoogleGenerativeAI class, such as unsupported
message types or roles.
"""
def _create_retry_decorator() -> Callable[[Any], Any]:
"""
Creates and returns a preconfigured tenacity retry decorator.
The retry decorator is configured to handle specific Google API exceptions
such as ResourceExhausted and ServiceUnavailable. It uses an exponential
backoff strategy for retries.
Returns:
Callable[[Any], Any]: A retry decorator configured for handling specific
Google API exceptions.
"""
multiplier = 2
min_seconds = 1
max_seconds = 60
max_retries = 2
return retry(
reraise=True,
stop=stop_after_attempt(max_retries),
wait=wait_exponential(multiplier=multiplier, min=min_seconds, max=max_seconds),
retry=(
retry_if_exception_type(google.api_core.exceptions.ResourceExhausted)
| retry_if_exception_type(google.api_core.exceptions.ServiceUnavailable)
| retry_if_exception_type(google.api_core.exceptions.GoogleAPIError)
),
before_sleep=before_sleep_log(logger, logging.WARNING),
)
def _chat_with_retry(generation_method: Callable, **kwargs: Any) -> Any:
"""
Executes a chat generation method with retry logic using tenacity.
This function is a wrapper that applies a retry mechanism to a provided
chat generation function. It is useful for handling intermittent issues
like network errors or temporary service unavailability.
Args:
generation_method (Callable): The chat generation method to be executed.
**kwargs (Any): Additional keyword arguments to pass to the generation method.
Returns:
Any: The result from the chat generation method.
"""
retry_decorator = _create_retry_decorator()
@retry_decorator
def _chat_with_retry(**kwargs: Any) -> Any:
try:
return generation_method(**kwargs)
# Do not retry for these errors.
except google.api_core.exceptions.FailedPrecondition as exc:
if "location is not supported" in exc.message:
error_msg = (
"Your location is not supported by google-generativeai "
"at the moment. Try to use ChatVertexAI LLM from "
"langchain_google_vertexai."
)
raise ValueError(error_msg)
except google.api_core.exceptions.InvalidArgument as e:
raise ChatGoogleGenerativeAIError(
f"Invalid argument provided to Gemini: {e}"
) from e
except Exception as e:
raise e
return _chat_with_retry(**kwargs)
async def _achat_with_retry(generation_method: Callable, **kwargs: Any) -> Any:
"""
Executes a chat generation method with retry logic using tenacity.
This function is a wrapper that applies a retry mechanism to a provided
chat generation function. It is useful for handling intermittent issues
like network errors or temporary service unavailability.
Args:
generation_method (Callable): The chat generation method to be executed.
**kwargs (Any): Additional keyword arguments to pass to the generation method.
Returns:
Any: The result from the chat generation method.
"""
retry_decorator = _create_retry_decorator()
from google.api_core.exceptions import InvalidArgument # type: ignore
@retry_decorator
async def _achat_with_retry(**kwargs: Any) -> Any:
try:
return await generation_method(**kwargs)
except InvalidArgument as e:
# Do not retry for these errors.
raise ChatGoogleGenerativeAIError(
f"Invalid argument provided to Gemini: {e}"
) from e
except Exception as e:
raise e
return await _achat_with_retry(**kwargs)
def _is_openai_parts_format(part: dict) -> bool:
return "type" in part
def _is_vision_model(model: str) -> bool:
return "vision" in model
def _is_url(s: str) -> bool:
try:
result = urlparse(s)
return all([result.scheme, result.netloc])
except Exception as e:
logger.debug(f"Unable to parse URL: {e}")
return False
def _is_b64(s: str) -> bool:
return s.startswith("data:image")
def _load_image_from_gcs(path: str, project: Optional[str] = None) -> Image:
try:
from google.cloud import storage # type: ignore[attr-defined]
except ImportError:
raise ImportError(
"google-cloud-storage is required to load images from GCS."
" Install it with `pip install google-cloud-storage`"
)
if PIL is None:
raise ImportError(
"PIL is required to load images. Please install it "
"with `pip install pillow`"
)
gcs_client = storage.Client(project=project)
pieces = path.split("/")
blobs = list(gcs_client.list_blobs(pieces[2], prefix="/".join(pieces[3:])))
if len(blobs) > 1:
raise ValueError(f"Found more than one candidate for {path}!")
img_bytes = blobs[0].download_as_bytes()
return PIL.Image.open(BytesIO(img_bytes))
def _url_to_pil(image_source: str) -> Image:
if PIL is None:
raise ImportError(
"PIL is required to load images. Please install it "
"with `pip install pillow`"
)
try:
if isinstance(image_source, IMAGE_TYPES):
return image_source # type: ignore[return-value]
elif _is_url(image_source):
if image_source.startswith("gs://"):
return _load_image_from_gcs(image_source)
response = requests.get(image_source)
response.raise_for_status()
return PIL.Image.open(BytesIO(response.content))
elif _is_b64(image_source):
_, encoded = image_source.split(",", 1)
data = base64.b64decode(encoded)
return PIL.Image.open(BytesIO(data))
elif os.path.exists(image_source):
return PIL.Image.open(image_source)
else:
raise ValueError(
"The provided string is not a valid URL, base64, or file path."
)
except Exception as e:
raise ValueError(f"Unable to process the provided image source: {e}")
def _convert_to_parts(
raw_content: Union[str, Sequence[Union[str, dict]]],
) -> List[Part]:
"""Converts a list of LangChain messages into a google parts."""
parts = []
content = [raw_content] if isinstance(raw_content, str) else raw_content
image_loader = ImageBytesLoader()
for part in content:
if isinstance(part, str):
parts.append(Part(text=part))
elif isinstance(part, Mapping):
# OpenAI Format
if _is_openai_parts_format(part):
if part["type"] == "text":
parts.append(Part(text=part["text"]))
elif part["type"] == "image_url":
img_url = part["image_url"]
if isinstance(img_url, dict):
if "url" not in img_url:
raise ValueError(
f"Unrecognized message image format: {img_url}"
)
img_url = img_url["url"]
parts.append(image_loader.load_part(img_url))
else:
raise ValueError(f"Unrecognized message part type: {part['type']}")
else:
# Yolo
logger.warning(
"Unrecognized message part format. Assuming it's a text part."
)
parts.append(Part(text=str(part)))
else:
# TODO: Maybe some of Google's native stuff
# would hit this branch.
raise ChatGoogleGenerativeAIError(
"Gemini only supports text and inline_data parts."
)
return parts
def _parse_chat_history(
input_messages: Sequence[BaseMessage], convert_system_message_to_human: bool = False
) -> Tuple[Optional[Content], List[Content]]:
messages: List[Content] = []
if convert_system_message_to_human:
warnings.warn("Convert_system_message_to_human will be deprecated!")
system_instruction: Optional[Content] = None
for i, message in enumerate(input_messages):
if i == 0 and isinstance(message, SystemMessage):
system_instruction = Content(parts=_convert_to_parts(message.content))
continue
elif isinstance(message, AIMessage):
role = "model"
raw_function_call = message.additional_kwargs.get("function_call")
if raw_function_call:
function_call = FunctionCall(
{
"name": raw_function_call["name"],
"args": json.loads(raw_function_call["arguments"]),
}
)
parts = [Part(function_call=function_call)]
else:
parts = _convert_to_parts(message.content)
elif isinstance(message, HumanMessage):
role = "user"
parts = _convert_to_parts(message.content)
if i == 1 and convert_system_message_to_human and system_instruction:
parts = [p for p in system_instruction.parts] + parts
system_instruction = None
elif isinstance(message, FunctionMessage):
role = "user"
response: Any
if not isinstance(message.content, str):
response = message.content
else:
try:
response = json.loads(message.content)
except json.JSONDecodeError:
response = message.content # leave as str representation
parts = [
Part(
function_response=FunctionResponse(
name=message.name,
response=(
{"output": response}
if not isinstance(response, dict)
else response
),
)
)
]
elif isinstance(message, ToolMessage):
role = "user"
prev_message: Optional[BaseMessage] = (
input_messages[i - 1] if i > 0 else None
)
if (
prev_message
and isinstance(prev_message, AIMessage)
and prev_message.tool_calls
):
# message.name can be null for ToolMessage
name: str = prev_message.tool_calls[0]["name"]
else:
name = message.name # type: ignore
tool_response: Any
if not isinstance(message.content, str):
tool_response = message.content
else:
try:
tool_response = json.loads(message.content)
except json.JSONDecodeError:
tool_response = message.content # leave as str representation
parts = [
Part(
function_response=FunctionResponse(
name=name,
response=(
{"output": tool_response}
if not isinstance(tool_response, dict)
else tool_response
),
)
)
]
else:
raise ValueError(
f"Unexpected message with type {type(message)} at the position {i}."
)
messages.append(Content(role=role, parts=parts))
return system_instruction, messages
def _parse_response_candidate(
response_candidate: Candidate, streaming: bool = False
) -> AIMessage:
content: Union[None, str, List[str]] = None
additional_kwargs = {}
tool_calls = []
invalid_tool_calls = []
tool_call_chunks = []
for part in response_candidate.content.parts:
try:
text: Optional[str] = part.text
except AttributeError:
text = None
if text is not None:
if not content:
content = text
elif isinstance(content, str) and text:
content = [content, text]
elif isinstance(content, list) and text:
content.append(text)
elif text:
raise Exception("Unexpected content type")
if part.function_call:
function_call = {"name": part.function_call.name}
# dump to match other function calling llm for now
function_call_args_dict = proto.Message.to_dict(part.function_call)["args"]
function_call["arguments"] = json.dumps(
{k: function_call_args_dict[k] for k in function_call_args_dict}
)
additional_kwargs["function_call"] = function_call
if streaming:
tool_call_chunks.append(
tool_call_chunk(
name=function_call.get("name"),
args=function_call.get("arguments"),
id=function_call.get("id", str(uuid.uuid4())),
index=function_call.get("index"), # type: ignore
)
)
else:
try:
tool_call_dict = parse_tool_calls(
[{"function": function_call}],
return_id=False,
)[0]
except Exception as e:
invalid_tool_calls.append(
invalid_tool_call(
name=function_call.get("name"),
args=function_call.get("arguments"),
id=function_call.get("id", str(uuid.uuid4())),
error=str(e),
)
)
else:
tool_calls.append(
tool_call(
name=tool_call_dict["name"],
args=tool_call_dict["args"],
id=tool_call_dict.get("id", str(uuid.uuid4())),
)
)
if content is None:
content = ""
if streaming:
return AIMessageChunk(
content=cast(Union[str, List[Union[str, Dict[Any, Any]]]], content),
additional_kwargs=additional_kwargs,
tool_call_chunks=tool_call_chunks,
)
return AIMessage(
content=cast(Union[str, List[Union[str, Dict[Any, Any]]]], content),
additional_kwargs=additional_kwargs,
tool_calls=tool_calls,
invalid_tool_calls=invalid_tool_calls,
)
def _response_to_result(
response: GenerateContentResponse,
stream: bool = False,
) -> ChatResult:
"""Converts a PaLM API response into a LangChain ChatResult."""
llm_output = {"prompt_feedback": proto.Message.to_dict(response.prompt_feedback)}
# Get usage metadata
try:
input_tokens = response.usage_metadata.prompt_token_count
output_tokens = response.usage_metadata.candidates_token_count
total_tokens = response.usage_metadata.total_token_count
if input_tokens + output_tokens + total_tokens > 0:
lc_usage = UsageMetadata(
input_tokens=input_tokens,
output_tokens=output_tokens,
total_tokens=total_tokens,
)
else:
lc_usage = None
except AttributeError:
lc_usage = None
generations: List[ChatGeneration] = []
for candidate in response.candidates:
generation_info = {}
if candidate.finish_reason:
generation_info["finish_reason"] = candidate.finish_reason.name
generation_info["safety_ratings"] = [
proto.Message.to_dict(safety_rating, use_integers_for_enums=False)
for safety_rating in candidate.safety_ratings
]
message = _parse_response_candidate(candidate, streaming=stream)
message.usage_metadata = lc_usage
generations.append(
(ChatGenerationChunk if stream else ChatGeneration)(
message=message,
generation_info=generation_info,
)
)
if not response.candidates:
# Likely a "prompt feedback" violation (e.g., toxic input)
# Raising an error would be different than how OpenAI handles it,
# so we'll just log a warning and continue with an empty message.
logger.warning(
"Gemini produced an empty response. Continuing with empty message\n"
f"Feedback: {response.prompt_feedback}"
)
generations = [
(ChatGenerationChunk if stream else ChatGeneration)(
message=(AIMessageChunk if stream else AIMessage)(content=""),
generation_info={},
)
]
return ChatResult(generations=generations, llm_output=llm_output)
def _is_event_loop_running() -> bool:
try:
asyncio.get_running_loop()
return True
except RuntimeError:
return False
[docs]
class ChatGoogleGenerativeAI(_BaseGoogleGenerativeAI, BaseChatModel):
"""`Google AI` chat models integration.
Instantiation:
To use, you must have either:
1. The ``GOOGLE_API_KEY``` environment variable set with your API key, or
2. Pass your API key using the google_api_key kwarg to the ChatGoogle
constructor.
.. code-block:: python
from langchain_google_genai import ChatGoogleGenerativeAI
llm = ChatGoogleGenerativeAI(model="gemini-1.5-pro")
llm.invoke("Write me a ballad about LangChain")
Invoke:
.. code-block:: python
messages = [
("system", "Translate the user sentence to French."),
("human", "I love programming."),
]
llm.invoke(messages)
.. code-block:: python
AIMessage(
content="J'adore programmer. \\n",
response_metadata={'prompt_feedback': {'block_reason': 0, 'safety_ratings': []}, 'finish_reason': 'STOP', 'safety_ratings': [{'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability': 'NEGLIGIBLE', 'blocked': False}]},
id='run-56cecc34-2e54-4b52-a974-337e47008ad2-0',
usage_metadata={'input_tokens': 18, 'output_tokens': 5, 'total_tokens': 23}
)
Stream:
.. code-block:: python
for chunk in llm.stream(messages):
print(chunk)
.. code-block:: python
AIMessageChunk(content='J', response_metadata={'finish_reason': 'STOP', 'safety_ratings': []}, id='run-e905f4f4-58cb-4a10-a960-448a2bb649e3', usage_metadata={'input_tokens': 18, 'output_tokens': 1, 'total_tokens': 19})
AIMessageChunk(content="'adore programmer. \n", response_metadata={'finish_reason': 'STOP', 'safety_ratings': [{'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability': 'NEGLIGIBLE', 'blocked': False}]}, id='run-e905f4f4-58cb-4a10-a960-448a2bb649e3', usage_metadata={'input_tokens': 18, 'output_tokens': 5, 'total_tokens': 23})
.. code-block:: python
stream = llm.stream(messages)
full = next(stream)
for chunk in stream:
full += chunk
full
.. code-block:: python
AIMessageChunk(
content="J'adore programmer. \\n",
response_metadata={'finish_reason': 'STOPSTOP', 'safety_ratings': [{'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability': 'NEGLIGIBLE', 'blocked': False}]},
id='run-3ce13a42-cd30-4ad7-a684-f1f0b37cdeec',
usage_metadata={'input_tokens': 36, 'output_tokens': 6, 'total_tokens': 42}
)
Async:
.. code-block:: python
await llm.ainvoke(messages)
# stream:
# async for chunk in (await llm.astream(messages))
# batch:
# await llm.abatch([messages])
Tool calling:
.. code-block:: python
from langchain_core.pydantic_v1 import BaseModel, Field
class GetWeather(BaseModel):
'''Get the current weather in a given location'''
location: str = Field(
..., description="The city and state, e.g. San Francisco, CA"
)
class GetPopulation(BaseModel):
'''Get the current population in a given location'''
location: str = Field(
..., description="The city and state, e.g. San Francisco, CA"
)
llm_with_tools = llm.bind_tools([GetWeather, GetPopulation])
ai_msg = llm_with_tools.invoke(
"Which city is hotter today and which is bigger: LA or NY?"
)
ai_msg.tool_calls
.. code-block:: python
[{'name': 'GetWeather',
'args': {'location': 'Los Angeles, CA'},
'id': 'c186c99f-f137-4d52-947f-9e3deabba6f6'},
{'name': 'GetWeather',
'args': {'location': 'New York City, NY'},
'id': 'cebd4a5d-e800-4fa5-babd-4aa286af4f31'},
{'name': 'GetPopulation',
'args': {'location': 'Los Angeles, CA'},
'id': '4f92d897-f5e4-4d34-a3bc-93062c92591e'},
{'name': 'GetPopulation',
'args': {'location': 'New York City, NY'},
'id': '634582de-5186-4e4b-968b-f192f0a93678'}]
Structured output:
.. code-block:: python
from typing import Optional
from langchain_core.pydantic_v1 import BaseModel, Field
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(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")
.. code-block:: python
Joke(
setup='Why are cats so good at video games?',
punchline='They have nine lives on the internet',
rating=None
)
Image input:
.. code-block:: python
import base64
import httpx
from langchain_core.messages import HumanMessage
image_url = "https://upload.wikimedia.org/wikipedia/commons/thumb/d/dd/Gfp-wisconsin-madison-the-nature-boardwalk.jpg/2560px-Gfp-wisconsin-madison-the-nature-boardwalk.jpg"
image_data = base64.b64encode(httpx.get(image_url).content).decode("utf-8")
message = HumanMessage(
content=[
{"type": "text", "text": "describe the weather in this image"},
{
"type": "image_url",
"image_url": {"url": f"data:image/jpeg;base64,{image_data}"},
},
]
)
ai_msg = llm.invoke([message])
ai_msg.content
.. code-block:: python
'The weather in this image appears to be sunny and pleasant. The sky is a bright blue with scattered white clouds, suggesting fair weather. The lush green grass and trees indicate a warm and possibly slightly breezy day. There are no signs of rain or storms. \n'
Token usage:
.. code-block:: python
ai_msg = llm.invoke(messages)
ai_msg.usage_metadata
.. code-block:: python
{'input_tokens': 18, 'output_tokens': 5, 'total_tokens': 23}
Response metadata
.. code-block:: python
ai_msg = llm.invoke(messages)
ai_msg.response_metadata
.. code-block:: python
{
'prompt_feedback': {'block_reason': 0, 'safety_ratings': []},
'finish_reason': 'STOP',
'safety_ratings': [{'category': 'HARM_CATEGORY_SEXUALLY_EXPLICIT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HATE_SPEECH', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_HARASSMENT', 'probability': 'NEGLIGIBLE', 'blocked': False}, {'category': 'HARM_CATEGORY_DANGEROUS_CONTENT', 'probability': 'NEGLIGIBLE', 'blocked': False}]
}
""" # noqa: E501
client: Any = None #: :meta private:
async_client: Any = None #: :meta private:
google_api_key: Optional[SecretStr] = Field(default=None, alias="api_key")
"""Google AI API key.
If not specified will be read from env var ``GOOGLE_API_KEY``."""
default_metadata: Sequence[Tuple[str, str]] = Field(
default_factory=list
) #: :meta private:
convert_system_message_to_human: bool = False
"""Whether to merge any leading SystemMessage into the following HumanMessage.
Gemini does not support system messages; any unsupported messages will
raise an error."""
class Config:
allow_population_by_field_name = True
@property
def lc_secrets(self) -> Dict[str, str]:
return {"google_api_key": "GOOGLE_API_KEY"}
@property
def _llm_type(self) -> str:
return "chat-google-generative-ai"
@classmethod
def is_lc_serializable(self) -> bool:
return True
@root_validator()
def validate_environment(cls, values: Dict) -> Dict:
"""Validates params and passes them to google-generativeai package."""
if (
values.get("temperature") is not None
and not 0 <= values["temperature"] <= 1
):
raise ValueError("temperature must be in the range [0.0, 1.0]")
if values.get("top_p") is not None and not 0 <= values["top_p"] <= 1:
raise ValueError("top_p must be in the range [0.0, 1.0]")
if values.get("top_k") is not None and values["top_k"] <= 0:
raise ValueError("top_k must be positive")
if not values["model"].startswith("models/"):
values["model"] = f"models/{values['model']}"
additional_headers = values.get("additional_headers") or {}
values["default_metadata"] = tuple(additional_headers.items())
client_info = get_client_info("ChatGoogleGenerativeAI")
google_api_key = None
if not values.get("credentials"):
google_api_key = get_from_dict_or_env(
values, "google_api_key", "GOOGLE_API_KEY"
)
if isinstance(google_api_key, SecretStr):
google_api_key = google_api_key.get_secret_value()
transport: Optional[str] = values.get("transport")
values["client"] = genaix.build_generative_service(
credentials=values.get("credentials"),
api_key=google_api_key,
client_info=client_info,
client_options=values.get("client_options"),
transport=transport,
)
# NOTE: genaix.build_generative_async_service requires
# a running event loop, which causes an error
# when initialized inside a ThreadPoolExecutor.
# this check ensures that async client is only initialized
# within an asyncio event loop to avoid the error
if _is_event_loop_running():
values["async_client"] = genaix.build_generative_async_service(
credentials=values.get("credentials"),
api_key=google_api_key,
client_info=client_info,
client_options=values.get("client_options"),
transport=transport,
)
else:
values["async_client"] = None
return values
@property
def _identifying_params(self) -> Dict[str, Any]:
"""Get the identifying parameters."""
return {
"model": self.model,
"temperature": self.temperature,
"top_k": self.top_k,
"n": self.n,
"safety_settings": self.safety_settings,
}
def _get_ls_params(
self, stop: Optional[List[str]] = None, **kwargs: Any
) -> LangSmithParams:
"""Get standard params for tracing."""
params = self._get_invocation_params(stop=stop, **kwargs)
ls_params = LangSmithParams(
ls_provider="google_genai",
ls_model_name=self.model,
ls_model_type="chat",
ls_temperature=params.get("temperature", self.temperature),
)
if ls_max_tokens := params.get("max_output_tokens", self.max_output_tokens):
ls_params["ls_max_tokens"] = ls_max_tokens
if ls_stop := stop or params.get("stop", None):
ls_params["ls_stop"] = ls_stop
return ls_params
def _prepare_params(
self,
stop: Optional[List[str]],
generation_config: Optional[Dict[str, Any]] = None,
) -> GenerationConfig:
gen_config = {
k: v
for k, v in {
"candidate_count": self.n,
"temperature": self.temperature,
"stop_sequences": stop,
"max_output_tokens": self.max_output_tokens,
"top_k": self.top_k,
"top_p": self.top_p,
}.items()
if v is not None
}
if generation_config:
gen_config = {**gen_config, **generation_config}
return GenerationConfig(**gen_config)
def _generate(
self,
messages: List[BaseMessage],
stop: Optional[List[str]] = None,
run_manager: Optional[CallbackManagerForLLMRun] = None,
*,
tools: Optional[Sequence[Union[ToolDict, GoogleTool]]] = None,
functions: Optional[Sequence[FunctionDeclarationType]] = None,
safety_settings: Optional[SafetySettingDict] = None,
tool_config: Optional[Union[Dict, _ToolConfigDict]] = None,
generation_config: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> ChatResult:
request = self._prepare_request(
messages,
stop=stop,
tools=tools,
functions=functions,
safety_settings=safety_settings,
tool_config=tool_config,
generation_config=generation_config,
)
response: GenerateContentResponse = _chat_with_retry(
request=request,
**kwargs,
generation_method=self.client.generate_content,
metadata=self.default_metadata,
)
return _response_to_result(response)
async def _agenerate(
self,
messages: List[BaseMessage],
stop: Optional[List[str]] = None,
run_manager: Optional[AsyncCallbackManagerForLLMRun] = None,
*,
tools: Optional[Sequence[Union[ToolDict, GoogleTool]]] = None,
functions: Optional[Sequence[FunctionDeclarationType]] = None,
safety_settings: Optional[SafetySettingDict] = None,
tool_config: Optional[Union[Dict, _ToolConfigDict]] = None,
generation_config: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> ChatResult:
if not self.async_client:
updated_kwargs = {
**kwargs,
**{
"tools": tools,
"functions": functions,
"safety_settings": safety_settings,
"tool_config": tool_config,
"generation_config": generation_config,
},
}
return await super()._agenerate(
messages, stop, run_manager, **updated_kwargs
)
request = self._prepare_request(
messages,
stop=stop,
tools=tools,
functions=functions,
safety_settings=safety_settings,
tool_config=tool_config,
generation_config=generation_config,
)
response: GenerateContentResponse = await _achat_with_retry(
request=request,
**kwargs,
generation_method=self.async_client.generate_content,
metadata=self.default_metadata,
)
return _response_to_result(response)
def _stream(
self,
messages: List[BaseMessage],
stop: Optional[List[str]] = None,
run_manager: Optional[CallbackManagerForLLMRun] = None,
*,
tools: Optional[Sequence[Union[ToolDict, GoogleTool]]] = None,
functions: Optional[Sequence[FunctionDeclarationType]] = None,
safety_settings: Optional[SafetySettingDict] = None,
tool_config: Optional[Union[Dict, _ToolConfigDict]] = None,
generation_config: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> Iterator[ChatGenerationChunk]:
request = self._prepare_request(
messages,
stop=stop,
tools=tools,
functions=functions,
safety_settings=safety_settings,
tool_config=tool_config,
generation_config=generation_config,
)
response: GenerateContentResponse = _chat_with_retry(
request=request,
generation_method=self.client.stream_generate_content,
**kwargs,
metadata=self.default_metadata,
)
for chunk in response:
_chat_result = _response_to_result(chunk, stream=True)
gen = cast(ChatGenerationChunk, _chat_result.generations[0])
if run_manager:
run_manager.on_llm_new_token(gen.text)
yield gen
async def _astream(
self,
messages: List[BaseMessage],
stop: Optional[List[str]] = None,
run_manager: Optional[AsyncCallbackManagerForLLMRun] = None,
*,
tools: Optional[Sequence[Union[ToolDict, GoogleTool]]] = None,
functions: Optional[Sequence[FunctionDeclarationType]] = None,
safety_settings: Optional[SafetySettingDict] = None,
tool_config: Optional[Union[Dict, _ToolConfigDict]] = None,
generation_config: Optional[Dict[str, Any]] = None,
**kwargs: Any,
) -> AsyncIterator[ChatGenerationChunk]:
if not self.async_client:
updated_kwargs = {
**kwargs,
**{
"tools": tools,
"functions": functions,
"safety_settings": safety_settings,
"tool_config": tool_config,
"generation_config": generation_config,
},
}
async for value in super()._astream(
messages, stop, run_manager, **updated_kwargs
):
yield value
else:
request = self._prepare_request(
messages,
stop=stop,
tools=tools,
functions=functions,
safety_settings=safety_settings,
tool_config=tool_config,
generation_config=generation_config,
)
async for chunk in await _achat_with_retry(
request=request,
generation_method=self.async_client.stream_generate_content,
**kwargs,
metadata=self.default_metadata,
):
_chat_result = _response_to_result(chunk, stream=True)
gen = cast(ChatGenerationChunk, _chat_result.generations[0])
if run_manager:
await run_manager.on_llm_new_token(gen.text)
yield gen
def _prepare_request(
self,
messages: List[BaseMessage],
*,
stop: Optional[List[str]] = None,
tools: Optional[Sequence[Union[ToolDict, GoogleTool]]] = None,
functions: Optional[Sequence[FunctionDeclarationType]] = None,
safety_settings: Optional[SafetySettingDict] = None,
tool_config: Optional[Union[Dict, _ToolConfigDict]] = None,
generation_config: Optional[Dict[str, Any]] = None,
) -> Tuple[GenerateContentRequest, Dict[str, Any]]:
formatted_tools = None
if tools:
formatted_tools = [convert_to_genai_function_declarations(tools)]
elif functions:
formatted_tools = [convert_to_genai_function_declarations(functions)]
system_instruction, history = _parse_chat_history(
messages,
convert_system_message_to_human=self.convert_system_message_to_human,
)
formatted_tool_config = None
if tool_config:
formatted_tool_config = ToolConfig(
function_calling_config=tool_config["function_calling_config"]
)
formatted_safety_settings = []
if safety_settings:
formatted_safety_settings = [
SafetySetting(category=c, threshold=t)
for c, t in safety_settings.items()
]
request = GenerateContentRequest(
model=self.model,
contents=history,
tools=formatted_tools,
tool_config=formatted_tool_config,
safety_settings=formatted_safety_settings,
generation_config=self._prepare_params(
stop, generation_config=generation_config
),
)
if system_instruction:
request.system_instruction = system_instruction
return request
[docs]
def get_num_tokens(self, text: str) -> int:
"""Get the number of tokens present in the text.
Useful for checking if an input will fit in a model's context window.
Args:
text: The string input to tokenize.
Returns:
The integer number of tokens in the text.
"""
result = self.client.count_tokens(
model=self.model, contents=[Content(parts=[Part(text=text)])]
)
return result.total_tokens
[docs]
def with_structured_output(
self,
schema: Union[Dict, Type[BaseModel]],
*,
include_raw: bool = False,
**kwargs: Any,
) -> Runnable[LanguageModelInput, Union[Dict, BaseModel]]:
if kwargs:
raise ValueError(f"Received unsupported arguments {kwargs}")
if isinstance(schema, type) and is_basemodel_subclass(schema):
parser: OutputParserLike = PydanticToolsParser(
tools=[schema], first_tool_only=True
)
else:
parser = JsonOutputToolsParser()
tool_choice = _get_tool_name(schema) if self._supports_tool_choice else None
llm = self.bind_tools([schema], tool_choice=tool_choice)
if include_raw:
parser_with_fallback = RunnablePassthrough.assign(
parsed=itemgetter("raw") | parser, parsing_error=lambda _: None
).with_fallbacks(
[RunnablePassthrough.assign(parsed=lambda _: None)],
exception_key="parsing_error",
)
return {"raw": llm} | parser_with_fallback
else:
return llm | parser
@property
def _supports_tool_choice(self) -> bool:
return "gemini-1.5-pro" in self.model
def _get_tool_name(
tool: Union[ToolDict, GoogleTool],
) -> str:
genai_tool = tool_to_dict(convert_to_genai_function_declarations([tool]))
return [f["name"] for f in genai_tool["function_declarations"]][0] # type: ignore[index]