0

The objective is to scrape multiple pages using BeautifulSoup whose input is from the requests.get module.

The steps are:

First load up the html using requests

page = requests.get('https://oatd.org/oatd/' + url_to_pass)

Then, scrape the html content using the definition below:

def get_each_page(page_soup):
    return dict(paper_author=page_soup.find(attrs={"itemprop": "name"}).text,
                paper_title=page_soup.find(attrs={"itemprop": "name"}).text)

Say, we have a hundred of unique url to be scraped ['record?record=handle\:11012\%2F16478&q=eeg'] * 100, the whole process can be completed via the code below:

import requests
from bs4 import BeautifulSoup as Soup

def get_each_page(page_soup):
    return dict(paper_author=page_soup.find(attrs={"itemprop": "name"}).text,
                paper_title=page_soup.find(attrs={"itemprop": "name"}).text)

list_of_url = ['record?record=handle\:11012\%2F16478&q=eeg'] * 100 # In practice, there will be 100 diffrent unique sub-href. But for illustration purpose, we purposely duplicate the url
all_website_scrape = []
for url_to_pass in list_of_url:

    page = requests.get('https://oatd.org/oatd/' + url_to_pass)
    if page.status_code == 200:
        all_website_scrape.append(get_each_page(Soup(page.text, 'html.parser')))

However, each of the url is requested and scrape one each a time, hence in principle time consuming.

I wonder if there is other way to increase the performance of the above code that I am not aware of?

4
1

realpython.com has a nice article about speeding up python scripts up with concurrency.

https://realpython.com/python-concurrency/

Using their example for threading, you can set the number of workers to execute multiple threads which increase the number of requests you can make at once.

    from bs4 import BeautifulSoup as Soup
    import concurrent.futures
    import requests
    import threading
    import time
    
    def get_each_page(page_soup):
        return dict(paper_author=page_soup.find(attrs={"itemprop": "name"}).text,
                    paper_title=page_soup.find(attrs={"itemprop": "name"}).text)
    
    def get_session():
        if not hasattr(thread_local, "session"):
            thread_local.session = requests.Session()
        return thread_local.session
    
    def download_site(url_to_pass):
        session = get_session()
        page = session.get('https://oatd.org/oatd/' + url_to_pass, timeout=10)
        print(f"{page.status_code}: {page.reason}")
        if page.status_code == 200:
            all_website_scrape.append(get_each_page(Soup(page.text, 'html.parser')))
    
    def download_all_sites(sites):
        with concurrent.futures.ThreadPoolExecutor(max_workers=5) as executor:
            executor.map(download_site, sites)
    
    if __name__ == "__main__":
        list_of_url = ['record?record=handle\:11012\%2F16478&q=eeg'] * 100  # In practice, there will be 100 diffrent unique sub-href. But for illustration purpose, we purposely duplicate the url
        all_website_scrape = []
        thread_local = threading.local()
        start_time = time.time()
        download_all_sites(list_of_url)
        duration = time.time() - start_time
        print(f"Downloaded {len(all_website_scrape)} in {duration} seconds")
2
  • Awesome, thanks for the link and the code. But, I should note that the suggested approach may result in the website denied the request as can be seen from the error 403: Forbidden – balandongiv Jul 12 '20 at 12:57
  • 1
    No worries :) and yes I did see that as well. It's most likely the website rejecting multiple simultaneous requests from the same IP address. I've tested the same code with a different site, and I do not encounter any request being denied. – mihuo999o Jul 12 '20 at 13:04
0

You maybe can use the threading module. You can make the script multi threaded and go much faster. https://docs.python.org/3/library/threading.html

But if you are willing to change your mind ill recommend scrapy

1
  • Thanks for the suggestion. But for the time being, my overall framework base on BSoup – balandongiv Jul 12 '20 at 13:01

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.