There is a one line approach, it involves using a nested closure function in the
constructor of the list. And a function that goes a long with it to generate the sequence.
Its defined below:

```
var __ = generate = function(initial, max, list, comparision) {
if (comparision(initial))
list.push(initial);
return (initial += 1) == max + 1 ? list : __(initial, max, list, comparision);
};
[(function(l){ return l; })(__(0, 30, [], function(x) { return x > 10; }))];
// returns Array[20]
var val = 16;
[(function(l){ return l; })(__(0, 30, [], function(x) { return x % val == 4; }))];
// returns Array[2]
```

This is a range based implementation like Python's range(min, max)
In addition the list comprehension follows this form:

```
[{closure function}({generator function})];
```

some tests:

```
var alist = [(function(l){ return l; })(__(0, 30, [], function(x) { return x > 10; }))];
var alist2 = [(function(l){ return l; })(__(0, 1000, [], function(x) { return x > 10; }))];
// returns Array[990]
var alist3 = [(function(l){ return l; })(__(40, 1000, [], function(x) { return x > 10; }))];
var threshold = 30*2;
var alist3 = [(function(l){ return l; })(__(0, 65, [], function(x) { return x > threshold; }))];
// returns Array[5]
```

While this solution is not the cleanest it gets the job done. And in production i'd probably advise against it.

Lastly one can choose not to use recursion for my "generate" method as it would do the job quicker. Or even better use a built in function from of the many popular Javascript libraries. Here is an overloaded implementation that would also accommodate for object properties

```
// A list generator overload implementation for
// objects and ranges based on the arity of the function.
// For example [(function(l){ return l; })(__(0, 30, [], function(x) { return x > 10; }))]
// will use the first implementation, while
// [(function(l){ return l; })(__(objects, 'name', [], function(x, y) { var x = x || {}; return x[y] }))];
// will use the second.
var __ = generator = function(options) {
return arguments.length == 4 ?
// A range based implemention, modeled after pythons range(0, 100)
(function (initial, max, list, comparision) {
var initial = arguments[0], max = arguments[1], list = arguments[2], comparision = arguments[3];
if (comparision(initial))
list.push(initial);
return (initial += 1) == max + 1 ? list : __(initial, max, list, comparision);
})(arguments[0], arguments[1], arguments[2], arguments[3]):
// An object based based implementation.
(function (object, key, list, check, acc) {
var object = arguments[0], key = arguments[1], list = arguments[2], check = arguments[3], acc = arguments[4];
acc = acc || 0;
if (check(object[acc], key))
list.push(object[acc][key]);
return (acc += 1) == list.length + 1 ? list : __(object, key, list, check, acc);
})(arguments[0], arguments[1], arguments[2], arguments[3], arguments[4]);
};
```

Usage:

```
var threshold = 10;
[(function(l){ return l; })(__(0, 65, [], function(x) { return x > threshold; }))];
// returns Array[5] -> 60, 61, 62, 63, 64, 65
var objects = [{'name': 'joe'}, {'name': 'jack'}];
[(function(l){ return l; })(__(objects, 'name', [], function(x, y) { var x = x || {}; return x[y] }))];
// returns Array[1] -> ['Joe', 'Jack']
[(function(l){ return l; })(__(0, 300, [], function(x) { return x > 10; }))];
```

The syntax sucks I know!

Best of luck.