Each class-like object in this style functions as a factory for objects to satisfy some purpose.
This style does not make use of the this keyword in instance methods.
I do not pretend that this style is applicable to cases where we care much about runtime time or memory performance. I deliberately sacrifice quite a bit of each of those to programming efficiency. I expect to find plenty of cases where I want to program something quickly and with little chance of error, and where the demands at runtime will not be critical.
Since I have been trying code in a browser rather than node.js, a practical consideration of the development environment for me is that syntax errors in a large source file can be hard to pin down and correct. I counter this problem by adding code in small increments. Therefore, I want the class-like objects to be able to accept an instance method definition at a time, rather than requiring that all method definitions appear in one source file.
I declare a class-like object initially without any instance methods defined in it, and I place the class-like object in whatever namespace I am programming in.
Then I call the class-like object repeatedly at a method in it called "init" and each time, I pass an initializer, a function to be called during the initialization of an instance.
Eventually when I start using the class-like object as a factory for its instances, whenever I ask it for a new instance, it creates the public and private aspects for the instance, links the private aspect to the public one, then calls all the initializers that have been defined, passing to them the private aspect of the new instance.
In my style, every public attribute is a method. All variables whose values will not be functions should live on the private side.
One thing an initializer can do is establish a variable on the private side.
Another thing an initializer can do is to add a method either on the public or the private side.
Order matters for executing the initializers -- the class-like object is required to execute them in the same order in which they are defined. Consequently, each initializer can count on the public and private aspects of the instance having the attributes that were established by the earlier initializers. For the programmer, this creates in effect a pair of lexical scopes, since the initializers are not established by conditional or dynamic code of any kind; they are established as the source files are executed by the browser right after it reads and parses them.