Skip to content

Latest commit

 

History

History
118 lines (99 loc) · 5.74 KB

README.md

File metadata and controls

118 lines (99 loc) · 5.74 KB

Build Codecov Documentation Code Shelter

PyPI Conda PyPI - Python Versions PyPI - Downloads

Summary

requests-cache is a persistent HTTP cache that provides an easy way to get better performance with the python requests library.

Complete project documentation can be found at requests-cache.readthedocs.io.

Features

  • 🍰 Ease of use: Keep using the requests library you're already familiar with. Add caching with a drop-in replacement for requests.Session, or install globally to add transparent caching to all requests functions.
  • 🚀 Performance: Get sub-millisecond response times for cached responses. When they expire, you still save time with conditional requests.
  • 💾 Persistence: Works with several storage backends including SQLite, Redis, MongoDB, and DynamoDB; or save responses as plain JSON files, YAML, and more
  • 🕗 Expiration: Use Cache-Control and other standard HTTP headers, define your own expiration schedule, keep your cache clutter-free with backends that natively support TTL, or any combination of strategies
  • ⚙️ Customization: Works out of the box with zero config, but with a robust set of features for configuring and extending the library to suit your needs
  • 🧩 Compatibility: Can be combined with other popular libraries based on requests

Quickstart

First, install with pip:

pip install requests-cache

Then, use requests_cache.CachedSession to make your requests. It behaves like a normal requests.Session, but with caching behavior.

To illustrate, we'll call an endpoint that adds a delay of 1 second, simulating a slow or rate-limited website.

This takes 1 minute:

import requests

session = requests.Session()
for i in range(60):
    session.get('https://httpbin.org/delay/1')

This takes 1 second:

import requests_cache

session = requests_cache.CachedSession('demo_cache')
for i in range(60):
    session.get('https://httpbin.org/delay/1')

With caching, the response will be fetched once, saved to demo_cache.sqlite, and subsequent requests will return the cached response near-instantly.

Patching: If you don't want to manage a session object, or just want to quickly test it out in your application without modifying any code, requests-cache can also be installed globally, and all requests will be transparently cached:

import requests
import requests_cache

requests_cache.install_cache('demo_cache')
requests.get('https://httpbin.org/delay/1')

Settings: The default settings work well for most use cases, but there are plenty of ways to customize caching behavior when needed. Here is a quick example of some of the options available:

from datetime import timedelta
from requests_cache import CachedSession

session = CachedSession(
    'demo_cache',
    use_cache_dir=True,                # Save files in the default user cache dir
    cache_control=True,                # Use Cache-Control response headers for expiration, if available
    expire_after=timedelta(days=1),    # Otherwise expire responses after one day
    allowable_codes=[200, 400],        # Cache 400 responses as a solemn reminder of your failures
    allowable_methods=['GET', 'POST'], # Cache whatever HTTP methods you want
    ignored_parameters=['api_key'],    # Don't match this request param, and redact if from the cache
    match_headers=['Accept-Language'], # Cache a different response per language
    stale_if_error=True,               # In case of request errors, use stale cache data if possible
)

Next Steps

To find out more about what you can do with requests-cache, see: