Hello, Crawlee Devs, and welcome back to another tutorial on the Crawlee Blog. This tutorial will teach you how to scrape infinite-scrolling websites using Crawlee for Python.
For context, infinite-scrolling pages are a modern alternative to classic pagination. When users scroll to the bottom of the webpage instead of choosing the next page, the page automatically loads more data, and users can scroll more.
As a big sneakerhead, I'll take the Nike shoes infinite-scrolling website as an example, and we'll scrape thousands of sneakers from it.
Crawlee for Python has some amazing initial features, such as a unified interface for HTTP and headless browser crawling, automatic retries, and much more.
Let’s start the tutorial by installing Crawlee for Python with this command:
pipx run crawlee create nike-crawler
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We…
We will scrape using headless browsers. Select PlaywrightCrawler in the terminal when Crawlee for Python asks for it.
After installation, Crawlee for Python will create boilerplate code for you. Redirect into the project folder and then run this command for all the dependencies installation:
poetry install
Handling accept cookie dialog
Adding request of all shoes links
Extract data from product details
Accept Cookies context manager
Handling infinite scroll on the listing page
Exporting data to CSV format
After all the necessary installations, we'll start looking into the files and configuring them accordingly.
When you look into the folder, you'll see many files, but for now, let’s focus on main.py and routes.py.
In __main__.py, let's change the target location to the Nike website. Then, just to see how scraping will happen, we'll add headless = False to the PlaywrightCrawler parameters. Let's also increase the maximum requests per crawl option to 100 to see the power of parallel scraping in Crawlee for Python.
The final code will look like this:
import asyncio from crawlee.playwright_crawler import PlaywrightCrawler from .routes import router async def main() -> None: crawler = PlaywrightCrawler( headless=False, request_handler=router, max_requests_per_crawl=100, ) await crawler.run( [ 'https://nike.com/, ] ) if __name__ == '__main__': asyncio.run(main())
Now coming to routes.py, let’s remove:
await context.enqueue_links()
As we don’t want to scrape the whole website.
Now, if you run the crawler using the command:
poetry run python -m nike-crawler
As the cookie dialog is blocking us from crawling more than one page's worth of shoes, let’s get it out of our way.
We can handle the cookie dialog by going to Chrome dev tools and looking at the test_id of the "accept cookies" button, which is dialog-accept-button.
Now, let’s remove the context.push_data call that was left there from the project template and add the code to accept the dialog in routes.py. The updated code will look like this:
from crawlee.router import Router from crawlee.playwright_crawler import PlaywrightCrawlingContext router = Router[PlaywrightCrawlingContext]() @router.default_handler async def default_handler(context: PlaywrightCrawlingContext) -> None: # Wait for the popup to be visible to ensure it has loaded on the page. await context.page.get_by_test_id('dialog-accept-button').click()
Now, if you hover over the top bar and see all the sections, i.e., man, woman, and kids, you'll notice the “All shoes” section. As we want to scrape all the sneakers, this section interests us. Let’s use get_by_test_id with the filter of has_text=’All shoes’ and add all the links with the text “All shoes” to the request handler. Let’s add this code to the existing routes.py file:
shoe_listing_links = ( await context.page.get_by_test_id('link').filter(has_text='All shoes').all() ) await context.add_requests( [ Request.from_url(url, label='listing') for link in shoe_listing_links if (url := await link.get_attribute('href')) ] ) @router.handler('listing') async def listing_handler(context: PlaywrightCrawlingContext) -> None: """Handler for shoe listings."""
Now that we have all the links to the pages with the title “All Shoes,” the next step is to scrape all the products on each page and the information provided on them.
We'll extract each shoe's URL, title, price, and description. Again, let's go to dev tools and extract each parameter's relevant test_id. After scraping each of the parameters, we'll use the context.push_data function to add it to the local storage. Now let's add the following code to the listing_handler and update it in the routes.py file:
@router.handler('listing') async def listing_handler(context: PlaywrightCrawlingContext) -> None: """Handler for shoe listings.""" await context.enqueue_links(selector='a.product-card__link-overlay', label='detail') @router.handler('detail') async def detail_handler(context: PlaywrightCrawlingContext) -> None: """Handler for shoe details.""" title = await context.page.get_by_test_id( 'product_title', ).text_content() price = await context.page.get_by_test_id( 'currentPrice-container', ).first.text_content() description = await context.page.get_by_test_id( 'product-description', ).text_content() await context.push_data( { 'url': context.request.loaded_url, 'title': title, 'price': price, 'description': description, } )
Since we're dealing with multiple browser pages with multiple links and we want to do infinite scrolling, we may encounter an accept cookie dialog on each page. This will prevent loading more shoes via infinite scroll.
We'll need to check for cookies on every page, as each one may be opened with a fresh session (no stored cookies) and we'll get the accept cookie dialog even though we already accepted it in another browser window. However, if we don't get the dialog, we want the request handler to work as usual.
To solve this problem, we'll try to deal with the dialog in a parallel task that will run in the background. A context manager is a nice abstraction that will allow us to reuse this logic in all the router handlers. So, let's build a context manager:
from playwright.async_api import TimeoutError as PlaywrightTimeoutError @asynccontextmanager async def accept_cookies(page: Page): task = asyncio.create_task(page.get_by_test_id('dialog-accept-button').click()) try: yield finally: if not task.done(): task.cancel() with suppress(asyncio.CancelledError, PlaywrightTimeoutError): await task
This context manager will make sure we're accepting the cookie dialog if it exists before scrolling and scraping the page. Let’s implement it in the routes.py file, and the updated code is here
Now for the last and most interesting part of the tutorial! How to handle the infinite scroll of each shoe listing page and make sure our crawler is scrolling and scraping the data constantly.
To handle infinite scrolling in Crawlee for Python, we just need to make sure the page is loaded, which is done by waiting for the network_idle load state, and then use the infinite_scroll helper function which will keep scrolling to the bottom of the page as long as that makes additional items appear.
Let’s add two lines of code to the listing handler:
@router.handler('listing') async def listing_handler(context: PlaywrightCrawlingContext) -> None: # Handler for shoe listings async with accept_cookies(context.page): await context.page.wait_for_load_state('networkidle') await context.infinite_scroll() await context.enqueue_links( selector='a.product-card__link-overlay', label='detail' )
As we want to store all the shoe data into a CSV file, we can just add a call to the export_data helper into the __main__.py file just after the crawler run:
await crawler.export_data('shoes.csv')
Now, we have a crawler ready that can scrape all the shoes from the Nike website while handling infinite scrolling and many other problems, like the cookies dialog.
You can find the complete working crawler code here on the GitHub repository.
If you have any doubts regarding this tutorial or using Crawlee for Python, feel free to join our discord community and ask fellow developers or the Crawlee team.
This tutorial is taken from the webinar held on August 5th where Jan Buchar, Senior Python Engineer at Apify, gave a live demo about this use case. Watch the whole webinar here.
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