This is a speed optimization for Google's V8 engine.
To be sure, this code snippet looks pretty weird: it assigns
properties as the prototype of a constructor
MyClass, then uses the constructor to build an instance with
new MyClass(), and then returns
properties. This is strange because 1)
properties is never altered, and 2) the function never uses
MyClass or the instance ever again.
Whenever you see strange behaviors like this, you can be fairly sure it's a speed optimization. In this case, the speed is gained by using V8's "hidden class" optimization. From a closely-related section of the Dart source:
// Use the newly created object as prototype. In Chrome,
// this creates a hidden class for the object and makes
// sure it is fast to access.
In the V8 engine, a constructed object is given a "hidden" C++ class to represent its set of properties. By constructing an object whose prototype is the
properties object, the property values of
properties become part of the new instance's C++ hidden class, which improves property-access speed.
I believe all objects in V8 have hidden classes by default, so the need for this technique isn't immediately obvious. However, it is possible for an object to lose its hidden class (and enter "slow mode" or "dictionary mode") by demonstrating that it doesn't benefit from the optimization. When an object
deletes one of its properties or adds too many properties that are unrelated to the properties of any other objects, V8 assumes that a shared hidden class isn't valuable, because the object has no other similar object to share its hidden class with. This
convertToFastObject function can re-instate a "slow mode" object's right to a hidden class by using it as the prototype of a newly constructed instance.
Related hidden class question, arising from a different Dart optimization: What is this generated code supposed (intended) to do?