How to run `selenium-chromedriver` in multiple threads(如何在多个线程中运行`selenium-chromedriver`)
问题描述
我正在使用 selenium
和 chrome-driver
从某些页面 scrape 数据,然后使用该信息运行一些额外的任务(例如,在某些页面上输入一些评论)
I am using selenium
and chrome-driver
to scrape data from some pages and then run some additional tasks with that information (for example, type some comments on some pages)
我的程序有一个按钮.每次按下它都会调用 thread_(self)
(如下),开始一个新线程.目标函数 self.main
具有在 chrome-driver
上运行所有 selenium 工作的代码.
My program has a button. Every time it's pressed it calls the thread_(self)
(bellow), starting a new thread. The target function self.main
has the code to run all the selenium work on a chrome-driver
.
def thread_(self):
th = threading.Thread(target=self.main)
th.start()
我的问题是用户第一次按下后.这个 th
线程将打开浏览器 A 并做一些事情.当浏览器 A 正在做一些事情时,用户将再次按下按钮并打开运行相同 self.main
的浏览器 B.我希望每个打开的浏览器同时运行.我遇到的问题是,当我运行那个线程函数时,第一个浏览器停止并且第二个浏览器打开.
My problem is that after the user press the first time. This th
thread will open browser A and do some stuff. While browser A is doing some stuff, the user will press the button again and open browser B that runs the same self.main
. I want each browser opened to run simultaneously. The problem I faced is that when I run that thread function, the first browser stops and the second browser is opened.
我知道我的代码可以无限创建线程.我知道这会影响电脑性能,但我可以接受.我想加快 self.main
完成的工作!
I know my code can create threads infinitely. And I know that this will affect the pc performance but I am ok with that. I want to speed up the work done by self.main
!
推荐答案
Threading
for selenium
加速
考虑以下函数来举例说明与单一驱动程序方法相比,使用 selenium 的线程如何提供一些加速.下面的代码 scraps 来自 selenium 使用 BeautifulSoup
打开的页面的 html 标题.页面列表是links
.
Threading
for selenium
speed up
Consider the following functions to exemplify how threads with selenium give some speed-up compared to a single driver approach. The code bellow scraps the html title from a page opened by selenium using BeautifulSoup
. The list of pages is links
.
import time
from bs4 import BeautifulSoup
from selenium import webdriver
import threading
def create_driver():
"""returns a new chrome webdriver"""
chromeOptions = webdriver.ChromeOptions()
chromeOptions.add_argument("--headless") # make it not visible, just comment if you like seeing opened browsers
return webdriver.Chrome(options=chromeOptions)
def get_title(url, webdriver=None):
"""get the url html title using BeautifulSoup
if driver is None uses a new chrome-driver and quit() after
otherwise uses the driver provided and don't quit() after"""
def print_title(driver):
driver.get(url)
soup = BeautifulSoup(driver.page_source,"lxml")
item = soup.find('title')
print(item.string.strip())
if webdriver:
print_title(webdriver)
else:
webdriver = create_driver()
print_title(webdriver)
webdriver.quit()
links = ["https://www.amazon.com", "https://www.google.com", "https://www.youtube.com/", "https://www.facebook.com/", "https://www.wikipedia.org/",
"https://us.yahoo.com/?p=us", "https://www.instagram.com/", "https://www.globo.com/", "https://outlook.live.com/owa/"]
现在在上面的 links
上调用 get_tile
.
Calling now get_tile
on the links
above.
顺序方法
单个 chrome 驱动程序并按顺序传递所有链接.我的机器需要 22.3 秒(注意:windows).
A single chrome driver and passing all links sequentially. Takes 22.3 s my machine (note:windows).
start_time = time.time()
driver = create_driver()
for link in links: # could be 'like' clicks
get_title(link, driver)
driver.quit()
print("sequential took ", (time.time() - start_time), " seconds")
多线程方法
为每个链接使用一个线程.结果在 10.5 秒内 >快 2 倍.
Using a thread for each link. Results in 10.5 s > 2x faster.
start_time = time.time()
threads = []
for link in links: # each thread could be like a new 'click'
th = threading.Thread(target=get_title, args=(link,))
th.start() # could `time.sleep` between 'clicks' to see whats'up without headless option
threads.append(th)
for th in threads:
th.join() # Main thread wait for threads finish
print("multiple threads took ", (time.time() - start_time), " seconds")
这里和这个更好是其他一些工作示例.第二个在 ThreadPool
上使用固定数量的线程.并建议存储在每个线程上初始化的 chrome-driver
实例比每次都创建-启动它更快.
This here and this better are some other working examples. The second uses a fixed number of threads on a ThreadPool
. And suggests that storing the chrome-driver
instance initialized on each thread is faster than creating-starting it every time.
我仍然不确定这是否是 selenium 的最佳方法有相当大的加速. 因为 threading
in-python?rq=1">无 IO 绑定代码 将结束顺序执行(一个线程一个接一个).由于 Python GIL(全局解释器锁),Python 进程无法并行运行线程(利用多个 cpu 核).
Still I was not sure this was the optimal approach for selenium to have considerable speed-ups. Since threading
on no IO bound code will end-up executed sequentially (one thread after another). Due the Python GIL (Global Interpreter Lock) a Python process cannot run threads in parallel (utilize multiple cpu-cores).
使用包multiprocessing
To try to overcome the Python GIL limitation using the package multiprocessing
and Processes
class I wrote the following code and I ran multiple tests. I even added random page hyperlink clicks on the get_title
function above. Additional code is here.
start_time = time.time()
processes = []
for link in links: # each thread a new 'click'
ps = multiprocessing.Process(target=get_title, args=(link,))
ps.start() # could sleep 1 between 'clicks' with `time.sleep(1)``
processes.append(ps)
for ps in processes:
ps.join() # Main wait for processes finish
return (time.time() - start_time)
与我的预期相反 基于 Python multiprocessing.Process
的 selenium
平均并行度 比 threading.Thread
慢大约 8%. 但很明显,booth 的平均速度比顺序方法快两倍多.刚刚发现 selenium
chrome-driver 命令使用 HTTP-Requets
(如 POST
, GET
) 所以它是I/O 受限,因此它释放了 Python GIL,确实使其在线程中并行.
Contrary of what I would expect Python multiprocessing.Process
based parallelism for selenium
in average was around 8% slower than threading.Thread
. But obviously booth were in average more than twice faster than the sequential approach. Just found out that selenium
chrome-driver commands uses HTTP-Requets
(like POST
, GET
) so it is I/O bounded therefore it releases the Python GIL indeed making it parallel in threads.
这不是一个确定的答案,因为我的测试只是一个很小的例子.此外,我使用的是 Windows 和 multiprocessing
在这种情况下有很多限制.每个新的 Process
都不像 Linux 中的分叉,这意味着除了其他缺点外,还浪费了大量内存.
This is not a definitive answer as my tests were only a tiny example. Also I'm using Windows and multiprocessing
have many limitations in this case. Each new Process
is not a fork like in Linux meaning, among other downsides, a lot of memory is wasted.
考虑到所有这些:根据用例,线程可能与尝试更重的进程方法(特别是对于 Windows 用户)一样好或更好.
Taking all that in account: It seams that depending on the use case threads maybe as good or better than trying the heavier approach of process (specially for Windows users).
这篇关于如何在多个线程中运行`selenium-chromedriver`的文章就介绍到这了,希望我们推荐的答案对大家有所帮助,也希望大家多多支持编程学习网!
本文标题为:如何在多个线程中运行`selenium-chromedriver`
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