CSC/ECE 517 Spring 2017/M1702 Implement the Mutation Observer API

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Mutation Observer API Project with SERVO & RUST

Servo is a prototype web browser engine written in the RUST language. The DOM standard defines a MutationObserver API that allows web content to receive callbacks when the page contents are mutated. In simple words, MutationObserver facilitates the developers with a technique to react to the changes in DOM. MutationObserver is designed to replace the Mutation Events defined in the DOM3 Events specification. The goal of this project is to implement the fundamental pieces required to support the Mutation Observer API.

Introduction

Servo

Servo is an open source web browser engine designed for application and embedded use. It is a high performance browser engine created by Mozilla Research and is written in the Rust language. The main idea behind the Servo is to create a parallel environment where the components are handle by isolated and fine grained tasks. These components can be rendering, HTML parsing etc.

Rust

Rust is an open source systems programming language developed by Mozilla. Servo is written in Rust. The main purpose behind it's design is to be thread safe and concurrent. The emphasis is also on speed, safety and control of memory layout.

Tracking issue

The Original Tracking Issue for the project can be found at the Tracking Issue page of the Mutation Observer Project.

Building the Project

Follow the Guidelines mentioned in the Read me file of the project Wiki Page for building the Project in a Linux Environment.

Project Description

   MutationObserver IDL
   [Constructor(MutationCallback callback)]
   interface MutationObserver {
     void observe(Node target, optional MutationObserverInit options);
     void disconnect();
     sequence<MutationRecord> takeRecords();
   };
   
   callback MutationCallback  = void (sequence<MutationRecord> mutations, MutationObserver observer);
   
   dictionary MutationObserverInit {
     boolean childList = false;
     boolean attributes;
     boolean characterData;
     boolean subtree = false;
     boolean attributeOldValue;
     boolean characterDataOldValue;
     sequence<DOMString> attributeFilter;
   };
   MutationRecord IDL
   [Exposed=Window]
   interface MutationRecord {
     readonly attribute DOMString type;
     [SameObject] readonly attribute Node target;
     [SameObject] readonly attribute NodeList addedNodes;
     [SameObject] readonly attribute NodeList removedNodes;
     readonly attribute Node? previousSibling;
     readonly attribute Node? nextSibling;
     readonly attribute DOMString? attributeName;
     readonly attribute DOMString? attributeNamespace;
     readonly attribute DOMString? oldValue;
   };
  • We hid the new interfaces by default by adding a [Pref="dom.mutation_observer.enabled"] attribute to both mutationobserver.rs and mutationrecord.rs and added a corresponding preference to resources/prefs.json file.
  • Added a vector of MutationObserver objects as a member of the ScriptThread as mentioed in the requirements.
  • Implemented the MutationObserver constructor, by following the steps given in the DOM Specifications.


Testing

  • Added a __dir__.ini file to tests/wpt/metadata/dom/nodes/ for enabling the new preference by including "prefs: ["dom.mutation_observer.enabled:true"]".
  • Tests are present in web-platform-tests directory (i.e .tests/wpt/web-platform-tests/dom/nodes).
  • The web-platform tests can be run by giving the following command at the root directory of the project:
   ./mach test-wpt tests/wpt/web-platform-tests/dom/nodes.
  • We have Updated the corresponding test expectations as per the given guidelines in the tests/wpt/metadata/dom/nodes/ directory.


Design Patterns

Our Project follows the Observer Pattern, where a list of the objects dependent on the current object is maintained and the dependents are notified of any state changes. The Mutation Observer helps in achieving this functionality.

Conclusion

After making the above mentioned changes, we can create the Mutation Observer Object using the Constructor which we have implemented.


Subsequent Steps

After completing the above initial steps, we plan on performing the following tasks:

Commit Frequency

As per the guidelines of the Mozilla project, all the changes will be submitted in a single commit.

References

1. https://doc.rust-lang.org/stable/book/
2. https://en.wikipedia.org/wiki/Rust_(programming_language)
3. https://en.wikipedia.org/wiki/Servo_(layout_engine)
4. https://github.com/servo/servo
5. https://github.com/servo/servo/wiki/Mutation-observer-project
6. https://dom.spec.whatwg.org/