Use slow, rate-limited APIs - like those of Large Language Models - as efficiently as possible
Project description
rate_limited
A lightweight package meant to enable efficient use of slow, rate-limited APIs - like those of Large Language Models (LLMs).
Features
- parallel execution - be as quick as possible within the rate limit you have
- retry failed requests
- validate the response against your criteria and retry if not valid (for non-deterministic APIs)
- if interrupted (
KeyboardInterrupt
) e.g. in a notebook:- returns partial results
- if ran again, continues from where it left off - and returns full results
- rate limits of some popular APIs already described - custom ones easy to add
- no dependencies (will use tqdm progress bars if installed)
Assumptions:
- the client:
- handles timeouts (requests will not hang forever)
- raises an exception if the request fails (or the server returns an error / an "invalid" response)
- requests are independent from each other, do not rely on order, can be retried if failed
- we want a standard, simple interface for the user - working the same way in a script and in a
notebook (+ most data scientists do not want to deal with asyncio). Therefore,
Runner.run()
is a blocking call, with the same behavior regardless of the context. - async use is also supported - via
run_coro()
- but it will not supportKeyboardInterrupt
handling.
Installation
pip install rate_limited
Usage
In short:
- wrap your function with a
Runner()
, describing the rate limits you have - call
Runner.schedule()
to schedule a request - with the same arguments as you would call the original function - call
Runner.run()
to run the scheduled requests, get the results and any exceptions raised
Creating a Runner
The following arguments are required:
function
- the function to be calledresources
- a list ofResource
objects, describing the rate limits you have (see examples below)max_concurrent
- the maximum number of requests to be executed in parallel Important optional arguments:max_retries
- the maximum number of retries for a single request (default: 5)validation_function
- a function that validates the response and returnsTrue
if it is valid (e.g. conforms to the schema you expect). If not valid, the request will be retried.
OpenAI example
import openai
from rate_limited.runner import Runner
from rate_limited.apis.openai import chat
openai.api_key = "YOUR_API_KEY"
endpoint = "https://api.openai.com/v1/chat/completions"
model = "gpt-3.5-turbo"
# describe your rate limits - values based on https://platform.openai.com/account/rate-limits
resources = chat.openai_chat_resources(
requests_per_minute=3_500,
tokens_per_minute=90_000,
model_max_len=4096, # property of the model version in use - max sequence length
)
runner = Runner(openai.ChatCompletion.create, resources, max_concurrent=32)
topics = ["honey badgers", "llamas", "pandas"]
for topic in topics:
messages = [{"role": "user", "content": f"Please write a poem about {topic}"}]
# call runner.schedule exactly like you would call openai.CharCompletion.create
runner.schedule(model=model, messages=messages, max_tokens=256, request_timeout=60)
results, exceptions = runner.run()
Validating the response
We can provide custom validation logic to the Runner - to retry the request if the response does not meet our criteria - for example, if it does not conform to the schema we expect. This assumes that the API is non-deterministic.
Example above continued:
def character_number_is_even(response):
poem = response["choices"][0]["message"]["content"]
return len([ch for ch in poem if ch.isalpha()]) % 2 == 0
validating_runner = Runner(
openai.ChatCompletion.create,
resources,
max_concurrent=32,
validation_function=character_number_is_even,
)
for topic in topics:
messages = [{"role": "user", "content": f"Please write a short poem about {topic}, containing an even number of letters"}]
validating_runner.schedule(model=model, messages=messages, max_tokens=256, request_timeout=60)
results, exceptions = validating_runner.run()
Custom server with a "requests per minute" limit
proceed as above - replace openai.ChatCompletion.create
with your own function, and
describe resources as follows:
from rate_limited.resources import Resource
resources = [
Resource(
"requests_per_minute",
quota=100,
time_window_seconds=60,
arguments_usage_extractor=lambda _: 1,
),
]
More complex resource descriptions
Overall, the core of an API description is a list of Resource
objects, each describing a single
resource and its limit - e.g. "requests per minute", "tokens per minute", "images per hour", etc.
Each resource has:
- a name (just for logging/debugging)
- a quota (e.g. 100)
- a time window (e.g. 60 seconds)
- functions that extract the "billing" information:
arguments_usage_extractor
results_usage_extractor
max_results_usage_estimator
Two distinct "billing" models are supported:
-
Before the call - we register usage before making the call, based on the arguments of the call.
In these cases, just
arguments_usage_extractor
is needed. -
After the call - we register usage after making the call, based on the results of the call, and possibly the arguments (if needed for some complex cases).
To avoid sending a flood or requests before the first ones complete (and we register any usage) we need to estimate the maximum usage of each call, based on its arguments. We "pre-allocate" this usage, then register the actual usage after the call completes.
In these cases,
results_usage_extractor
andmax_results_usage_estimator
are needed.
Both approaches can be used in the same Resource description if needed.
Note: it is assumed that resource usage "expires" fully after the time window elapses, without a "gradual" decline. Some APIs (OpenAI) might use the "gradual" approach, and differ in other details, but this approach seems sufficient to get "close enough" to the actual rate limits, without running into them.
See apis.openai.chat for an example of a more complex API description with multiple resources.
Limiting the number of concurrent requests
The max_concurrent
argument of Runner
controls the number of concurrent requests.
More advanced usage
See apis.openai.chat
for an example of a more complex API description, with multiple resources
Implementation details
Concurency model
The package uses a single thread with an asyncio event loop to kick off requests and keep track of the resources used.
However, threads are also in use:
- each call is actually executed in a thread pool, to avoid blocking the Runner
- Runner.run(), spawns a new thread and a new event loop to run the main Runner logic in
(
run_coro()
). This serves two objectives:- having the same sync entrypoint for both sync and async contexts (e.g. run the same code in a notebook and in a script)
- gracefully handling
KeyboardInterrupt
Development and testing
Install the package in editable mode with pip install -e .[test, lint]
To quickly run the whole test suite, run the following in the root directory of the project:
pytest -n 8 # or another number of workers
This uses pytest-xdist to run tests in parallel, but will not support --pdb
or verbose output.
To debug tests in detail, examine the usage of resources etc, run:
pytest --log-cli-level="DEBUG" --pdb -k name_of_test
Linting and formatting
Format:
isort . && black .
Check:
flake8 && black --check . && mypy .
TODOs:
- more ready-made API descriptions - incl. batched ones?
- fix the "interrupt and resume" test in Python 3.11
Nice to have:
- (optional) slow start feature - pace the initial requests, instead of sending them all at once
- text-based logging if tqdm is not installed
- if/where possible, detect RateLimitExceeded - notify the user, slow down
- support "streaming" and/or continuous operation:
- enable scheduling calls while running and/or getting inputs from generators
- support "streaming" results - perhaps similar to "as_completed" in asyncio?
- add timeouts option? (for now, the user is responsible for handling timeouts)
- OpenAI shares information about rate limits in http response headers - could it be used without coupling too tightly with their API?
- tests (and explicit support?) for different ways of registering usage
- more robust wrapper-like behavior of schedule() - more complete support of VS Code
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