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I split my code into several files, and then run a script to merge and compile them (with ADVANCED_OPTIMIZATIONS). A big part of the functionality is implemented in a single object's prototype.

So when merged, it could look something like this:

(function(){

/** @constructor */ function MyConstructor() {};

MyConstructor.prototype = {};

MyConstructor.prototype['foo'] = function() { alert('foo'); };
MyConstructor.prototype['bar'] = function() { alert('bar'); };
MyConstructor.prototype['baz'] = function() { alert('baz'); };

window['MyConstructor'] = MyConstructor;

}());

If you put that code into Closure Compiler just like that, here's the output (pretty-printed):

function a() {
}
a.prototype = {};
a.prototype.foo = function() {
  alert("foo")
};
a.prototype.bar = function() {
  alert("bar")
};
a.prototype.baz = function() {
  alert("baz")
};
window.MyConstructor = a;

The question is, is there some way I could tell Closure Compiler that it's ok to merge all of these in a single object literal, and even if there was code in-between (in this example there isn't, but there could be), so that no matter what, it made it all compile into one big object literal?

Here's a couple of solutions, and why they wouldn't work for me:

  • Solution 1: Simply declare them in one big object literal.
    Wouldn't work because I have my code into several files, and I plan to make it so users can remove some of them (if they don't need them) prior to compilation. Object literals have comma-delimiters that would make this a nightmare.
  • Solution 2: Declare all functionality outside of the object (as private variables in the closure), and attach them into a simplified object literal at the end, which just has references to properties (such as {'foo':foo,'bar':bar,'baz':baz}).
    Wouldn't work because, as said, the idea is to create something modular, and removing one file would make the reference break.

I'm open to ideas!


Edit: Some people could think that Closure Compiler can't do this. It can do this and much more, it's just that it has a bad attitude and does things when it feels like it.

Input this into Closure:

(function(){

var MyConstructor = window['MyConstructor'] = function() {};

var myProto = {
    'foo': function() { alert('foo'); },
    'bar': function() { alert('bar'); }
};

myProto['baz'] = function() { alert('baz'); };

MyConstructor.prototype = myProto;

}());

The result is:

(window.MyConstructor = function() {
}).prototype = {foo:function() {
  alert("foo")
}, bar:function() {
  alert("bar")
}, baz:function() {
  alert("baz")
}};

See? But, this is code is very fragile in that it may compile into something completely different (and not that good) if modified slightly. For example even a variable assignment somewhere in the middle might cause it to output very different results. In other words, this doesn't work (except in this case).


Edit 2: see this jsperf. A big object literal is faster in Chrome (proportional to its size).


Edit 3: Closure Compiler bug report.

share|improve this question
1  
@wvxvw Closure is very different from regular minifiers, it is really a compiler. It does things that go way beyond what others do, at least with ADVANCED_OPTIMIZATIONS on. What I mean is that it already did many other much more complicated things that could potentially have broken my javascripts severely (and sometimes did, luckily I have unit tests to know when that happens). Also, there is a case in my code when Closure compiler DOES exactly this! I'll edit with an example. –  Camilo Martin Sep 30 '12 at 17:31
1  
@wvxvw It's not bad. There are three compilation modes. One removes WHITESPACE_ONLY (super safe), the other does SIMPLE_OPTIMIZATIONS (the kind of thing that should be safe in 99% of cases, think YUI compiler), and the one I like is when it does ADVANCED_OPTIMIZATIONS, in other words, there's a high chance it will break your code unless you're very careful, but on the upside, the code runs faster, and is waaay smaller than what your garden-variety minifier could do. –  Camilo Martin Sep 30 '12 at 17:40
2  
@CamiloMartin: With all due respect, I certainly believe you that a direct comparison of the two approaches shows a single object assignment to be faster than an empty object assignment followed by multiple property assignments, but if you compare the entire loading of the library given the two approaches, I'd have a hard time believing that the difference is perceptible. If this were some code that needed to run multiple times in rapid succession, those minor optimizations may be worthwhile, but for a one-time operation, I wouldn't spend too much time trying to outsmart the compiler. –  I Hate Lazy Sep 30 '12 at 19:06
1  
Not that I'm trying to minimize your question. But I've spent enough time trying to tweak my code for Closure Compiler to know that it has rarely made any real difference. –  I Hate Lazy Sep 30 '12 at 19:07
1  
@user1689607 Well, your point does make sense, I guess it's a bit of stubbornness. If I can't find a way, I'll give up on it and just make it property assignments. –  Camilo Martin Sep 30 '12 at 19:24

1 Answer 1

There is a workaround I'm doing. It might not apply, so this answer cannot be accepted. Still, this is what works in my case.

My folder structure looked like this:

src
├───components
└───core

And, before compilation, I merged src/intro.js, some files at the src level (in a specific order), then all of the files in core (any order), then all in components (any order), then outro.js.

Now, the folder structure looks like this:

src
├───components
│   ├───modules
│   └───plugs-literal
└───core
    ├───internal
    ├───modules
    └───plugs-literal

And the compilation order is (note the part with arrows):

  • src/intro.js
  • a couple files in src/core, specific order.
  • All files in src/core/internal
  • src/core/plugs-literal-intro.js <--
  • All files in src/core/plugs-literal <--
  • All files in src/components/plugs-literal <--
  • src/core/plugs-literal-outro.js <--
  • All files in src/core/modules
  • All files in src/components/modules
  • src/outro.js

The idea is that one file contains the beginning of an object literal, another file has the closing of an object literal, and two folders contain properties. More or less like this:

src/core/plugs-literal-intro.js:

var myObjectLiteral = {
    'someSimpleProp': 'foo',
    'someOtherSimpleProp': 'bar',
    'lastOneWithoutTrailingComma': 'baz'

src/core/plugs-literal/EXAMPLE.js:

,'example': function() { alert('example'); } // comma before, not after.

src/core/plugs-literal-outro.js:

};

If this introduces some unwanted problem, I'll know later. But then, I could assign a different folder to contain prototype properties declared individually.

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