# Introduction Here, we will discuss the `DynamicFetcher` class (previously known as `PlayWrightFetcher`). This class provides flexible browser automation with multiple configuration options and some stealth capabilities. As we will explain later, to automate the page, you need some knowledge of [Playwright's Page API](https://playwright.dev/python/docs/api/class-page). > 💡 **Prerequisites:** > > 1. You’ve completed or read the [Fetchers basics](../fetching/choosing.md) page to understand what the [Response object](../fetching/choosing.md#response-object) is and which fetcher to use. > 2. You’ve completed or read the [Querying elements](../parsing/selection.md) page to understand how to find/extract elements from the [Selector](../parsing/main_classes.md#selector)/[Response](../fetching/choosing.md#response-object) object. > 3. You’ve completed or read the [Main classes](../parsing/main_classes.md) page to know what properties/methods the [Response](../fetching/choosing.md#response-object) class is inheriting from the [Selector](../parsing/main_classes.md#selector) class. ## Basic Usage You have one primary way to import this Fetcher, which is the same for all fetchers. ```python >>> from scrapling.fetchers import DynamicFetcher ``` Check out how to configure the parsing options [here](choosing.md#parser-configuration-in-all-fetchers) Now, we will review most of the arguments one by one, using examples. If you want to jump to a table of all arguments for quick reference, [click here](#full-list-of-arguments) > Note: The async version of the `fetch` method is the `async_fetch` method, of course. This fetcher currently provides four main run options that can be combined as desired. Which are: ### 1. Vanilla Playwright ```python DynamicFetcher.fetch('https://example.com') ``` Using it in that manner will open a Chromium browser and load the page. There are no tricks or extra features unless you enable some; it's just a plain PlayWright API. ### 2. Stealth Mode ```python DynamicFetcher.fetch('https://example.com', stealth=True) ``` It's the same as the vanilla Playwright option, but it provides a simple stealth mode suitable for websites with a small to medium protection layer(s). Some of the things this fetcher's stealth mode does include: * Patching the CDP runtime fingerprint by using PatchRight. * Mimics some of the real browsers' properties by injecting several JS files and using custom options. * Custom flags are used on launch to hide Playwright even more and make it faster. * Generates real browser headers of the same type and user OS, then appends them to the request's headers. ### 3. Real Chrome ```python DynamicFetcher.fetch('https://example.com', real_chrome=True) ``` If you have a Google Chrome browser installed, use this option. It's the same as the first option, but it will use the Google Chrome browser you installed on your device instead of Chromium. This will make your requests look more authentic, so it's less detectable, and you can even use the `stealth=True` mode with it for better results, like below: ```python DynamicFetcher.fetch('https://example.com', real_chrome=True, stealth=True) ``` If you don't have Google Chrome installed and want to use this option, you can use the command below in the terminal to install it for the library instead of installing it manually: ```commandline playwright install chrome ``` ### 4. CDP Connection ```python DynamicFetcher.fetch('https://example.com', cdp_url='ws://localhost:9222') ``` Instead of launching a browser locally (Chromium/Google Chrome), you can connect to a remote browser through the [Chrome DevTools Protocol](https://chromedevtools.github.io/devtools-protocol/). ## Full list of arguments Scrapling provides many options with this fetcher and its session classes. To make it as simple as possible, we will list the options here and give examples of how to use most of them. | Argument | Description | Optional | |:-------------------:|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|:--------:| | url | Target url | ❌ | | headless | Pass `True` to run the browser in headless/hidden (**default**) or `False` for headful/visible mode. | ✔️ | | disable_resources | Drop requests for unnecessary resources for a speed boost. It depends, but it made requests ~25% faster in my tests for some websites.
Requests dropped are of type `font`, `image`, `media`, `beacon`, `object`, `imageset`, `texttrack`, `websocket`, `csp_report`, and `stylesheet`. _This can help save your proxy usage, but be cautious with this option, as it may cause some websites to never finish loading._ | ✔️ | | cookies | Set cookies for the next request. | ✔️ | | useragent | Pass a useragent string to be used. **Otherwise, the fetcher will generate and use a real Useragent of the same browser.** | ✔️ | | network_idle | Wait for the page until there are no network connections for at least 500 ms. | ✔️ | | load_dom | Enabled by default, wait for all JavaScript on page(s) to fully load and execute (wait for the `domcontentloaded` state). | ✔️ | | timeout | The timeout (milliseconds) used in all operations and waits through the page. The default is 30,000 ms (30 seconds). | ✔️ | | wait | The time (milliseconds) the fetcher will wait after everything finishes before closing the page and returning the `Response` object. | ✔️ | | page_action | Added for automation. Pass a function that takes the `page` object and does the necessary automation. | ✔️ | | wait_selector | Wait for a specific css selector to be in a specific state. | ✔️ | | init_script | An absolute path to a JavaScript file to be executed on page creation for all pages in this session. | ✔️ | | wait_selector_state | Scrapling will wait for the given state to be fulfilled for the selector given with `wait_selector`. _Default state is `attached`._ | ✔️ | | google_search | Enabled by default, Scrapling will set the referer header as if this request came from a Google search of this website's domain name. | ✔️ | | extra_headers | A dictionary of extra headers to add to the request. _The referer set by the `google_search` argument takes priority over the referer set here if used together._ | ✔️ | | proxy | The proxy to be used with requests. It can be a string or a dictionary with only the keys 'server', 'username', and 'password'. | ✔️ | | hide_canvas | Add random noise to canvas operations to prevent fingerprinting. | ✔️ | | disable_webgl | Disables WebGL and WebGL 2.0 support entirely. | ✔️ | | stealth | Enables stealth mode; you should always check the documentation to see what the stealth mode does currently. | ✔️ | | real_chrome | If you have a Chrome browser installed on your device, enable this, and the Fetcher will launch and use an instance of your browser. | ✔️ | | locale | Set the locale for the browser if wanted. The default value is `en-US`. | ✔️ | | cdp_url | Instead of launching a new browser instance, connect to this CDP URL to control real browsers through CDP. | ✔️ | | user_data_dir | Path to a User Data Directory, which stores browser session data like cookies and local storage. The default is to create a temporary directory. **Only Works with sessions** | ✔️ | | extra_flags | A list of additional browser flags to pass to the browser on launch. | ✔️ | | additional_args | Additional arguments to be passed to Playwright's context as additional settings, and they take higher priority than Scrapling's settings. | ✔️ | | selector_config | A dictionary of custom parsing arguments to be used when creating the final `Selector`/`Response` class. | ✔️ | In session classes, all these arguments can be set globally for the session. Still, you can configure each request individually by passing some of the arguments here that can be configured on the browser tab level like: `google_search`, `timeout`, `wait`, `page_action`, `extra_headers`, `disable_resources`, `wait_selector`, `wait_selector_state`, `network_idle`, `load_dom`, and `selector_config`. ## Examples It's easier to understand with examples, so let's take a look. ### Resource Control ```python # Disable unnecessary resources page = DynamicFetcher.fetch( 'https://example.com', disable_resources=True # Blocks fonts, images, media, etc... ) ``` ### Network Control ```python # Wait for network idle (Consider fetch to be finished when there are no network connections for at least 500 ms) page = DynamicFetcher.fetch('https://example.com', network_idle=True) # Custom timeout (in milliseconds) page = DynamicFetcher.fetch('https://example.com', timeout=30000) # 30 seconds # Proxy support page = DynamicFetcher.fetch( 'https://example.com', proxy='http://username:password@host:port' # Or it can be a dictionary with the keys 'server', 'username', and 'password' only ) ``` ### Downloading Files ```python page = DynamicFetcher.fetch('https://raw.githubusercontent.com/D4Vinci/Scrapling/main/images/poster.png') with open(file='poster.png', mode='wb') as f: f.write(page.body) ``` The `body` attribute of the `Response` object is a `bytes` object containing the response body in case of Non-HTML responses. ### Browser Automation This is where your knowledge about [Playwright's Page API](https://playwright.dev/python/docs/api/class-page) comes into play. The function you pass here takes the page object from Playwright's API, performs the desired action, and then the fetcher continues. This function is executed immediately after waiting for `network_idle` (if enabled) and before waiting for the `wait_selector` argument, allowing it to be used for purposes beyond automation. You can alter the page as you want. In the example below, I used the pages' [mouse events](https://playwright.dev/python/docs/api/class-mouse) to scroll the page with the mouse wheel, then move the mouse. ```python from playwright.sync_api import Page def scroll_page(page: Page): page.mouse.wheel(10, 0) page.mouse.move(100, 400) page.mouse.up() page = DynamicFetcher.fetch( 'https://example.com', page_action=scroll_page ) ``` Of course, if you use the async fetch version, the function must also be async. ```python from playwright.async_api import Page async def scroll_page(page: Page): await page.mouse.wheel(10, 0) await page.mouse.move(100, 400) await page.mouse.up() page = await DynamicFetcher.async_fetch( 'https://example.com', page_action=scroll_page ) ``` ### Wait Conditions ```python # Wait for the selector page = DynamicFetcher.fetch( 'https://example.com', wait_selector='h1', wait_selector_state='visible' ) ``` This is the last wait the fetcher will do before returning the response (if enabled). You pass a CSS selector to the `wait_selector` argument, and the fetcher will wait for the state you passed in the `wait_selector_state` argument to be fulfilled. If you didn't pass a state, the default would be `attached`, which means it will wait for the element to be present in the DOM. After that, if `load_dom` is enabled (the default), the fetcher will check again to see if all JavaScript files are loaded and executed (in the `domcontentloaded` state) or continue waiting. If you have enabled `network_idle`, the fetcher will wait for `network_idle` to be fulfilled again, as explained above. The states the fetcher can wait for can be any of the following ([source](https://playwright.dev/python/docs/api/class-page#page-wait-for-selector)): - `attached`: Wait for an element to be present in the DOM. - `detached`: Wait for an element to not be present in the DOM. - `visible`: wait for an element to have a non-empty bounding box and no `visibility:hidden`. Note that an element without any content or with `display:none` has an empty bounding box and is not considered visible. - `hidden`: wait for an element to be either detached from the DOM, or have an empty bounding box, or `visibility:hidden`. This is opposite to the `'visible'` option. ### Some Stealth Features ```python # Full stealth mode page = DynamicFetcher.fetch( 'https://example.com', stealth=True, hide_canvas=True, disable_webgl=True, google_search=True ) # Custom user agent page = DynamicFetcher.fetch( 'https://example.com', useragent='Mozilla/5.0...' ) # Set browser locale page = DynamicFetcher.fetch( 'https://example.com', locale='en-US' ) ``` Hence, the `hide_canvas` argument doesn't disable the canvas; instead, it hides it by adding random noise to canvas operations, preventing fingerprinting. Also, if you didn't set a user agent (preferred), the fetcher will generate a real User Agent of the same browser and use it. The `google_search` argument is enabled by default, making the request appear to come from a Google search page. So, a request for `https://example.com` will set the referer to `https://www.google.com/search?q=example`. Also, if used together, it takes priority over the referer set by the `extra_headers` argument. ### General example ```python from scrapling.fetchers import DynamicFetcher def scrape_dynamic_content(): # Use Playwright for JavaScript content page = DynamicFetcher.fetch( 'https://example.com/dynamic', network_idle=True, wait_selector='.content' ) # Extract dynamic content content = page.css('.content') return { 'title': content.css_first('h1::text'), 'items': [ item.text for item in content.css('.item') ] } ``` ## Session Management To keep the browser open until you make multiple requests with the same configuration, use `DynamicSession`/`AsyncDynamicSession` classes. Those classes can accept all the arguments that the `fetch` function can take, which enables you to specify a config for the entire session. ```python from scrapling.fetchers import DynamicSession # Create a session with default configuration with DynamicSession( headless=True, stealth=True, disable_resources=True, real_chrome=True ) as session: # Make multiple requests with the same browser instance page1 = session.fetch('https://example1.com') page2 = session.fetch('https://example2.com') page3 = session.fetch('https://dynamic-site.com') # All requests reuse the same tab on the same browser instance ``` ### Async Session Usage ```python import asyncio from scrapling.fetchers import AsyncDynamicSession async def scrape_multiple_sites(): async with AsyncDynamicSession( stealth=True, network_idle=True, timeout=30000, max_pages=3 ) as session: # Make async requests with shared browser configuration pages = await asyncio.gather( session.fetch('https://spa-app1.com'), session.fetch('https://spa-app2.com'), session.fetch('https://dynamic-content.com') ) return pages ``` You may have noticed the `max_pages` argument. This is a new argument that enables the fetcher to create a **rotating pool of Browser tabs**. Instead of using a single tab for all your requests, you set a limit on the maximum number of pages that can be displayed at once. With each request, the library will close all tabs that have finished their task and check if the number of the current tabs is lower than the maximum allowed number of pages/tabs, then: 1. If you are within the allowed range, the fetcher will create a new tab for you, and then all is as normal. 2. Otherwise, it will keep checking every subsecond if creating a new tab is allowed or not for 60 seconds, then raise `TimeoutError`. This can happen when the website you are fetching becomes unresponsive. This logic allows for multiple websites to be fetched at the same time in the same browser, which saves a lot of resources, but most importantly, is so fast :) In versions 0.3 and 0.3.1, the pool was reusing finished tabs to save more resources/time. That logic proved flawed, as it's nearly impossible to protect pages/tabs from contamination by the previous configuration used in the request before this one. ### Session Benefits - **Browser reuse**: Much faster subsequent requests by reusing the same browser instance. - **Cookie persistence**: Automatic cookie and session state handling as any browser does automatically. - **Consistent fingerprint**: Same browser fingerprint across all requests. - **Memory efficiency**: Better resource usage compared to launching new browsers with each fetch. ## When to Use Use DynamicFetcher when: - Need browser automation - Want multiple browser options - Using a real Chrome browser - Need custom browser config - Want flexible stealth options If you want more stealth and control without much config, check out the [StealthyFetcher](stealthy.md).