Huge News!Announcing our $40M Series B led by Abstract Ventures.Learn More
Socket
Sign inDemoInstall
Socket

page-parser-tree

Package Overview
Dependencies
Maintainers
1
Versions
23
Alerts
File Explorer

Advanced tools

Socket logo

Install Socket

Detect and block malicious and high-risk dependencies

Install

page-parser-tree

Library to find elements in a dynamic web page

  • 0.2.11
  • Source
  • npm
  • Socket score

Version published
Weekly downloads
24K
increased by0.87%
Maintainers
1
Weekly downloads
 
Created
Source

page-parser-tree

Circle CI npm version

This module provides a declarative and robust way to recognize elements on a dynamic webpage. This is useful for building browser extensions that offer rich integration into complex and ever-changing web applications.

When a PageParserTree is instantiated, you provide it with a document or HTML element reference to use as the root and an options object describing how to identify specific types of elements on the page to be tagged with a given identifier. PageParserTree will then produce a TagTree instance of all of the tagged elements found in the page. The TagTree instance will be kept up-to-date with the page's contents through use of MutationObservers.

To identify elements to tag, the primary method is to specify a "Watcher", which uses a CSS selector-like syntax. A watcher specifies a tag name, a list of sources including either the root element or previously-tagged elements to initialize the matched set to, and an array of PageParserTree selectors used to
transform the matched set to the set of elements to tag. The PageParserTree selectors may take advantage of MutationObservers so that the page is watched for changes and new elements can be found on the page before the browser has rendered them to the screen. This means a browser extension can react to an element and enhance it before it has appeared on the screen, preventing any visible after-load pop-in effect.

Additionally, a "Finder" is an alternate and more adaptable method of identifying elements to tag. It may be specified in addition to a "Watcher" to provide redundancy, or by itself if the responsiveness of a "Watcher" isn't necessary. To specify a "Finder", you write a function which takes the root element and returns an array of all elements to tag, and this function will be called on an interval to look for elements on the page to tag. MutationObservers are not used here; there will be a likely user-noticeable amount of time between the element appearing on the page and the PageParserTree (and therefore your application) reacting to the presence of the element.

Finders are best used in addition to Watchers as a fallback-method to pick up any elements missed by the Watchers. Watchers tend to be closely tied to the known structure of the page, and may be brittle if the web application is updated or variations of the structure are missed by a browser extension developer. Finders are easier to make more robust to variations in the structure of the page (you can use the querySelectorAll method to find elements anywhere on the page matching some rule), but they don't have the immediate responsiveness of Watchers. Use of them together creates a graceful degradation route for when a web application's page structure exhibits unforeseen variations.

A PageParserTree instance has a tree property which is an instance of a TagTree, which has methods such as getAllByTag(tag) that returns a LiveSet of TagTreeNodes. A TagTreeNode has a getValue() method to get the element it contains, and getParent() and getOwnedByTag(tag) method to retrieve related TagTreeNodes as described in TagTree's documentation.

Example

import PageParserTree from 'page-parser-tree';

const page = new PageParserTree(document, {
  tags: {
    message: {
      ownedBy: ['thread']
    },
  },
  watchers: [
    {sources: [null], tag: 'thread', selectors: [
      'body',
      'div.page',
      'div.mainPanel',
      'div.thread'
    ]},
    {sources: ['thread'], tag: 'message', selectors: [
      'div.threadFooter',
      'div.replyArea',
      // Ignore and don't recurse into the div.replyArea element until the web
      // page changes its style attribute so that it's not hidden.
      {$watch: {
        attributeFilter: ['style'],
        cond: element => element.style.display !== 'none'
      }},
      'div.message'
    ]},
  ],
  finders: {
    thread: {
      fn: root => root.querySelectorAll('div.thread')
    },
    message: {
      fn: root => root.querySelectorAll('div.message')
    },
  }
});

// allMessages is a LiveSet of TagTreeNodes pointing to the message elements
const allMessages = page.tree.getAllByTag('message');

// We can inspect its current values.
allMessages.values().forEach(node => {
  const messageElement = node.getValue();
  console.log('found message element', messageElement);

  // The "message" tag was listed as being owned by the "thread" tag, so if
  // this message element is inside an element tagged as "thread", then we can
  // access that thread element.
  const ownerNode = node.getParent();
  // The watcher we gave to find message elements would only find ones contained
  // by threads, but the finder could find a message element not contained by a
  // thread. If for example the web application was updated to have thread
  // elements contain a class name other than "thread", then the watchers would
  // fail to find threads or messages, and the finders would only find messages
  // that are owned by the tree root instead of by threads.
  if (ownerNode.getTag() === 'thread') {
    const threadElement = ownerNode.getValue();
    console.log('message owned by thread', threadElement);

    // From a node, you can also retrieve its nodes. messagesOfThread is also
    // a LiveSet of TagTreeNodes like allMessages.
    const messagesOfThread = ownerNode.getOwnedByTag('message');
    console.log('message is one of', messagesOfThread.values().size, 'messages in thread');
  }
});

// We can also subscribe to changes in a LiveSet's values.
allMessages.subscribe(changes => {
  changes.forEach(change => {
    if (change.type === 'add') {
      console.log('added message element', change.value.getValue());
    } else if (change.type === 'remove') {
      console.log('removed message element', change.value.getValue());
    }
  });
});

// If we just want to call some callbacks for every present and future message
// and when they're removed, then we can use a handy helper from the LiveSet
// library:
import toValueObservable from 'live-set/toValueObservable';

toValueObservable(allMessages).subscribe(({value, removal}) => {
  const messageElement = value.getValue();
  console.log('found message element', messageElement);

  removal.then(() => {
    console.log('message element removed from page', messageElement);
  });
});

API

Functions

PageParserTree::constructor

PageParserTree::constructor(root: Document|HTMLElement, options: PageParserTreeOptions)

This creates a new PageParserTree instance which will immediately start populating a TagTree instance based on the options given. See the PageParserTreeOptions for a full description of the options parameter.

PageParserTree::tree

PageParserTree::tree: TagTree<HTMLElement>

This property contains the TagTree instance that the tagged elements can be accessed from. See the documentation of TagTree for information about the API of TagTree instances.

PageParserTree::dump

PageParserTree::dump(): void

This causes the PageParserTree instance to halt all of its Watchers and Finders, to empty out the tree TagTree as if all of the tagged elements were removed from the page, and to end all of the TagTree's LiveSets so that they no longer keep references to their subscribers. This function is useful if you are performing a clean shutdown of the browser extension while letting the web page continue to operate.

PageParserTree::replaceOptions

PageParserTree::replaceOptions(options: PageParserTreeOptions): void

This replaces the options object that the PageParserTree was instantiated with. This is mainly intended for use in development with hot module replacement to allow live-editing of the options within a running page.

Currently this method has some limitations:

  • The tree TagTree will be emptied out as if all elements were removed from the page, and then the Watchers and Finders specified in the new options are started from scratch.
  • An error will be thrown if the set of tags or any of their ownedBy lists change.

PageParserTreeOptions

The PageParserTreeOptions specifies the Watchers and Finders used to populate the TagTree and other options.

PageParserTreeOptions::logError

PageParserTreeOptions::logError(err: Error, el: ?HTMLElement): void

This is an optional property specifying a function to be called if PageParserTree encounters an error. It will be passed an Error object and optionally an HTMLElement if one is relevant.

The main reason PageParserTree will call logError is if there are Watchers and a Finder for a tag and they are inconsistent with each other. The error message will include the name of the tag, and the element which was missed by one of them will be passed to logError.

PageParserTreeOptions::tags

PageParserTreeOptions::tags: {[tag:string]: TagOptions}

The tags property is required and must be an object. Each property must be a tag name with a value containing a TagOptions object. Not all tags need to have an entry here; it's legal to pass an empty object as the tags property.

TagOptions is an object that has an optional ownedBy property which may be an array of strings referring to other tag names. Each node in a TagTree is owned by another node, defaulting to the root node. If you specify any tag names in the ownedBy array, then any node of this tag will be owned by the node of the closest ancestor with a tag in the ownedBy array if any are present.

A tag may own itself; this is useful to represent hierarchical user-interfaces such as comment trees on reddit where a comment element may be the owner of its direct replies.

It is an error to pass options for a tag name that has no Watchers or Finders.

PageParserTreeOptions::finders

PageParserTreeOptions::finders: {[tag:string]: Finder}

The finders property is required and must be an object. Each property names a tag, and the value is a Finder object.

A Finder object has an fn property which must be a function. The fn function must take an HTMLElement representing the root element of the PageParserTree, and it must return an Array or Array-like object of the HTMLElements to tag.

A finder object may have an interval property controlling how often in milliseconds the Finder function is to be called. The interval property defaults to 5000. The Finder function may be called less often that this depending on page and user activity.

Alternative, interval may be a function that returns a number. The function will be passed the number of elements that have currently been found on the page, and the amount of time that has passed since the finder started running. If there are a limited number of elements expected to be found, then his allows the finder to throttle back after they're found.

PageParserTreeOptions::watchers

PageParserTreeOptions::watchers: Array<Watcher>

This property must be an array of Watcher objects. A Watcher object contains the following properties:

{
  sources: Array<string|null>;
  tag: string;
  selectors: Array<Selector>;
}

A watcher functions by starting with a matched set of elements, and transforming that matched set of elements into a new matched set of elements iteratively by using the array of Selector values.

The sources array defines the initial matched set of elements. The value null represents the root element given to the PageParserTree constructor (usually the document). Strings may be given naming tags. Multiple sources may be given. (Alternatively, multiple Watchers may be given for the same tag, if for example the tagged element is to be found in very different parts of the page.)

The valid values for the Selector type are described in the Selectors section.

Selectors

Children

string

This will change the matched set to contain only the direct children of each element of the current matched set, and then filters those elements based on a CSS selector string.

Note that if an element does not initially match the given CSS selector string but is later modified to match it (e.g. the web application changed one of its attributes some time after adding it to the page), then the Children selector will not re-run the CSS selector check on the element. The Children selector is only triggered by changes to an element's child list; the Watcher selector must be used if you want to trigger by any other changes to an element.

Filter

{ $filter: (el: HTMLElement) => boolean }

This allows you to specify a function which will be called on every matched element. If the function returns false, then the element will be removed from the matched set.

Map

{ $map: (el: HTMLElement) => ?HTMLElement } This allows you to specify a function which will be called on every matched element, and each element in the matched set will be replaced with the element returned by your function. If your function returns null, then the element will just be removed from the matched set.

Watch

{ $watch: { attributeFilter: string[], cond: string | (el: HTMLElement) => boolean } }

This selector allows you to specify an array of attribute names to react to changes to, and a CSS selector string or a function to evaluate the element against. Every element will have the condition evaluated when it first becomes part of the matched set and whenever any of the listed attributes are modified.

Or

{ $or: Array<Array<Selector>> }

For each array of selectors, this takes the current matched set and creates a new matched set by applying the list of selectors to it. All of the resulting matched sets are combined to create the output matched set. This selector can be thought of as forking the selector list at a given point, using several alternatives selector lists to continue it, and then recombining the results.

For an example, imagine a site where "message" elements all match the following CSS selector string:

body > div.main > div.border > div.message,
body > div.footer > div.message {}

Imagine for a moment that CSS supported a feature so that this was an equivalent selector string:

body > :or(div.main > div.border, div.footer) > div.message {}

PageParserTree's Or selector implements an operation like that. Here's an example a PageParserTree Watcher supporting the above page structure:

{
  sources: [null], tag: 'message', selectors: [
    'body',
    {$or: [
      [
        'div.main',
        'div.border'
      ], [
        'div.footer'
      ]
    ]},
    'div.message'
  ]
}
Log

{ $log: string }

This selector uses console.log to log every time an element becomes part of the matched set at the given position in the chain. The given string will be part of the logged message. This is intended for use in development while debugging.

Usage

PageParserTree may be installed with npm. We recommend you save the dependency in your package.json and pin the major version by using the command npm install --save page-parser-tree.

PageParserTree may be used in browsers via a CommonJS bundler such as Browserify or Webpack.

Some of the examples on this page use ES2015 features. ES2015 features aren't required to use PageParserTree, though if you're writing a browser extension targeting a modern browser, then you can probably use let/const declarations and arrow functions without issue. Other features in the examples including import statements may require Babel to be used. We've had good experiences with Babel and highly recommend it, but if you aren't using it then know that you can usually swap import X from 'foo'; with const X = require('foo');.

Types

Flow type declarations for this module are included! If you are using Flow, they won't require any configuration to use.

About

PageParserTree was written by us at Streak, where we produce the Streak CRM browser extension and the InboxSDK, a library for integrating with Gmail and Inbox by Google, which you should also check out if you're reading this page because you're considering writing a browser extension to integrate with them!

Keywords

FAQs

Package last updated on 06 Mar 2017

Did you know?

Socket

Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.

Install

Related posts

SocketSocket SOC 2 Logo

Product

  • Package Alerts
  • Integrations
  • Docs
  • Pricing
  • FAQ
  • Roadmap
  • Changelog

Packages

npm

Stay in touch

Get open source security insights delivered straight into your inbox.


  • Terms
  • Privacy
  • Security

Made with ⚡️ by Socket Inc