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Diffstat (limited to '.venv/lib/python3.12/site-packages/openai/_streaming.py')
| -rw-r--r-- | .venv/lib/python3.12/site-packages/openai/_streaming.py | 410 |
1 files changed, 410 insertions, 0 deletions
diff --git a/.venv/lib/python3.12/site-packages/openai/_streaming.py b/.venv/lib/python3.12/site-packages/openai/_streaming.py new file mode 100644 index 00000000..9cb72ffe --- /dev/null +++ b/.venv/lib/python3.12/site-packages/openai/_streaming.py @@ -0,0 +1,410 @@ +# Note: initially copied from https://github.com/florimondmanca/httpx-sse/blob/master/src/httpx_sse/_decoders.py +from __future__ import annotations + +import json +import inspect +from types import TracebackType +from typing import TYPE_CHECKING, Any, Generic, TypeVar, Iterator, AsyncIterator, cast +from typing_extensions import Self, Protocol, TypeGuard, override, get_origin, runtime_checkable + +import httpx + +from ._utils import is_mapping, extract_type_var_from_base +from ._exceptions import APIError + +if TYPE_CHECKING: + from ._client import OpenAI, AsyncOpenAI + + +_T = TypeVar("_T") + + +class Stream(Generic[_T]): + """Provides the core interface to iterate over a synchronous stream response.""" + + response: httpx.Response + + _decoder: SSEBytesDecoder + + def __init__( + self, + *, + cast_to: type[_T], + response: httpx.Response, + client: OpenAI, + ) -> None: + self.response = response + self._cast_to = cast_to + self._client = client + self._decoder = client._make_sse_decoder() + self._iterator = self.__stream__() + + def __next__(self) -> _T: + return self._iterator.__next__() + + def __iter__(self) -> Iterator[_T]: + for item in self._iterator: + yield item + + def _iter_events(self) -> Iterator[ServerSentEvent]: + yield from self._decoder.iter_bytes(self.response.iter_bytes()) + + def __stream__(self) -> Iterator[_T]: + cast_to = cast(Any, self._cast_to) + response = self.response + process_data = self._client._process_response_data + iterator = self._iter_events() + + for sse in iterator: + if sse.data.startswith("[DONE]"): + break + + if sse.event is None or sse.event.startswith("response."): + data = sse.json() + if is_mapping(data) and data.get("error"): + message = None + error = data.get("error") + if is_mapping(error): + message = error.get("message") + if not message or not isinstance(message, str): + message = "An error occurred during streaming" + + raise APIError( + message=message, + request=self.response.request, + body=data["error"], + ) + + yield process_data(data=data, cast_to=cast_to, response=response) + + else: + data = sse.json() + + if sse.event == "error" and is_mapping(data) and data.get("error"): + message = None + error = data.get("error") + if is_mapping(error): + message = error.get("message") + if not message or not isinstance(message, str): + message = "An error occurred during streaming" + + raise APIError( + message=message, + request=self.response.request, + body=data["error"], + ) + + yield process_data(data={"data": data, "event": sse.event}, cast_to=cast_to, response=response) + + # Ensure the entire stream is consumed + for _sse in iterator: + ... + + def __enter__(self) -> Self: + return self + + def __exit__( + self, + exc_type: type[BaseException] | None, + exc: BaseException | None, + exc_tb: TracebackType | None, + ) -> None: + self.close() + + def close(self) -> None: + """ + Close the response and release the connection. + + Automatically called if the response body is read to completion. + """ + self.response.close() + + +class AsyncStream(Generic[_T]): + """Provides the core interface to iterate over an asynchronous stream response.""" + + response: httpx.Response + + _decoder: SSEDecoder | SSEBytesDecoder + + def __init__( + self, + *, + cast_to: type[_T], + response: httpx.Response, + client: AsyncOpenAI, + ) -> None: + self.response = response + self._cast_to = cast_to + self._client = client + self._decoder = client._make_sse_decoder() + self._iterator = self.__stream__() + + async def __anext__(self) -> _T: + return await self._iterator.__anext__() + + async def __aiter__(self) -> AsyncIterator[_T]: + async for item in self._iterator: + yield item + + async def _iter_events(self) -> AsyncIterator[ServerSentEvent]: + async for sse in self._decoder.aiter_bytes(self.response.aiter_bytes()): + yield sse + + async def __stream__(self) -> AsyncIterator[_T]: + cast_to = cast(Any, self._cast_to) + response = self.response + process_data = self._client._process_response_data + iterator = self._iter_events() + + async for sse in iterator: + if sse.data.startswith("[DONE]"): + break + + if sse.event is None or sse.event.startswith("response."): + data = sse.json() + if is_mapping(data) and data.get("error"): + message = None + error = data.get("error") + if is_mapping(error): + message = error.get("message") + if not message or not isinstance(message, str): + message = "An error occurred during streaming" + + raise APIError( + message=message, + request=self.response.request, + body=data["error"], + ) + + yield process_data(data=data, cast_to=cast_to, response=response) + + else: + data = sse.json() + + if sse.event == "error" and is_mapping(data) and data.get("error"): + message = None + error = data.get("error") + if is_mapping(error): + message = error.get("message") + if not message or not isinstance(message, str): + message = "An error occurred during streaming" + + raise APIError( + message=message, + request=self.response.request, + body=data["error"], + ) + + yield process_data(data={"data": data, "event": sse.event}, cast_to=cast_to, response=response) + + # Ensure the entire stream is consumed + async for _sse in iterator: + ... + + async def __aenter__(self) -> Self: + return self + + async def __aexit__( + self, + exc_type: type[BaseException] | None, + exc: BaseException | None, + exc_tb: TracebackType | None, + ) -> None: + await self.close() + + async def close(self) -> None: + """ + Close the response and release the connection. + + Automatically called if the response body is read to completion. + """ + await self.response.aclose() + + +class ServerSentEvent: + def __init__( + self, + *, + event: str | None = None, + data: str | None = None, + id: str | None = None, + retry: int | None = None, + ) -> None: + if data is None: + data = "" + + self._id = id + self._data = data + self._event = event or None + self._retry = retry + + @property + def event(self) -> str | None: + return self._event + + @property + def id(self) -> str | None: + return self._id + + @property + def retry(self) -> int | None: + return self._retry + + @property + def data(self) -> str: + return self._data + + def json(self) -> Any: + return json.loads(self.data) + + @override + def __repr__(self) -> str: + return f"ServerSentEvent(event={self.event}, data={self.data}, id={self.id}, retry={self.retry})" + + +class SSEDecoder: + _data: list[str] + _event: str | None + _retry: int | None + _last_event_id: str | None + + def __init__(self) -> None: + self._event = None + self._data = [] + self._last_event_id = None + self._retry = None + + def iter_bytes(self, iterator: Iterator[bytes]) -> Iterator[ServerSentEvent]: + """Given an iterator that yields raw binary data, iterate over it & yield every event encountered""" + for chunk in self._iter_chunks(iterator): + # Split before decoding so splitlines() only uses \r and \n + for raw_line in chunk.splitlines(): + line = raw_line.decode("utf-8") + sse = self.decode(line) + if sse: + yield sse + + def _iter_chunks(self, iterator: Iterator[bytes]) -> Iterator[bytes]: + """Given an iterator that yields raw binary data, iterate over it and yield individual SSE chunks""" + data = b"" + for chunk in iterator: + for line in chunk.splitlines(keepends=True): + data += line + if data.endswith((b"\r\r", b"\n\n", b"\r\n\r\n")): + yield data + data = b"" + if data: + yield data + + async def aiter_bytes(self, iterator: AsyncIterator[bytes]) -> AsyncIterator[ServerSentEvent]: + """Given an iterator that yields raw binary data, iterate over it & yield every event encountered""" + async for chunk in self._aiter_chunks(iterator): + # Split before decoding so splitlines() only uses \r and \n + for raw_line in chunk.splitlines(): + line = raw_line.decode("utf-8") + sse = self.decode(line) + if sse: + yield sse + + async def _aiter_chunks(self, iterator: AsyncIterator[bytes]) -> AsyncIterator[bytes]: + """Given an iterator that yields raw binary data, iterate over it and yield individual SSE chunks""" + data = b"" + async for chunk in iterator: + for line in chunk.splitlines(keepends=True): + data += line + if data.endswith((b"\r\r", b"\n\n", b"\r\n\r\n")): + yield data + data = b"" + if data: + yield data + + def decode(self, line: str) -> ServerSentEvent | None: + # See: https://html.spec.whatwg.org/multipage/server-sent-events.html#event-stream-interpretation # noqa: E501 + + if not line: + if not self._event and not self._data and not self._last_event_id and self._retry is None: + return None + + sse = ServerSentEvent( + event=self._event, + data="\n".join(self._data), + id=self._last_event_id, + retry=self._retry, + ) + + # NOTE: as per the SSE spec, do not reset last_event_id. + self._event = None + self._data = [] + self._retry = None + + return sse + + if line.startswith(":"): + return None + + fieldname, _, value = line.partition(":") + + if value.startswith(" "): + value = value[1:] + + if fieldname == "event": + self._event = value + elif fieldname == "data": + self._data.append(value) + elif fieldname == "id": + if "\0" in value: + pass + else: + self._last_event_id = value + elif fieldname == "retry": + try: + self._retry = int(value) + except (TypeError, ValueError): + pass + else: + pass # Field is ignored. + + return None + + +@runtime_checkable +class SSEBytesDecoder(Protocol): + def iter_bytes(self, iterator: Iterator[bytes]) -> Iterator[ServerSentEvent]: + """Given an iterator that yields raw binary data, iterate over it & yield every event encountered""" + ... + + def aiter_bytes(self, iterator: AsyncIterator[bytes]) -> AsyncIterator[ServerSentEvent]: + """Given an async iterator that yields raw binary data, iterate over it & yield every event encountered""" + ... + + +def is_stream_class_type(typ: type) -> TypeGuard[type[Stream[object]] | type[AsyncStream[object]]]: + """TypeGuard for determining whether or not the given type is a subclass of `Stream` / `AsyncStream`""" + origin = get_origin(typ) or typ + return inspect.isclass(origin) and issubclass(origin, (Stream, AsyncStream)) + + +def extract_stream_chunk_type( + stream_cls: type, + *, + failure_message: str | None = None, +) -> type: + """Given a type like `Stream[T]`, returns the generic type variable `T`. + + This also handles the case where a concrete subclass is given, e.g. + ```py + class MyStream(Stream[bytes]): + ... + + extract_stream_chunk_type(MyStream) -> bytes + ``` + """ + from ._base_client import Stream, AsyncStream + + return extract_type_var_from_base( + stream_cls, + index=0, + generic_bases=cast("tuple[type, ...]", (Stream, AsyncStream)), + failure_message=failure_message, + ) |