I’m trying to learn about array sorting. It seems pretty straightforward. But on the mozilla site, I ran across a section discussing sorting maps (about three-quarters down the page).

The compareFunction can be invoked multiple times per element within
the array. Depending on the compareFunction’s nature, this may yield a
high overhead. The more work a compareFunction does and the more
elements there are to sort, the wiser it may be to consider using a
map for sorting.

The example given is this:

// the array to be sorted
var list = ["Delta", "alpha", "CHARLIE", "bravo"];
// temporary holder of position and sort-value
var map = [];
// container for the resulting order
var result = [];

// walk original array to map values and positions
for (var i=0, length = list.length; i < length; i++) {
  map.push({    
    // remember the index within the original array
    index: i, 
    // evaluate the value to sort
    value: list[i].toLowerCase()
  });
}

// sorting the map containing the reduced values
map.sort(function(a, b) {
  return a.value > b.value ? 1 : -1;
});

// copy values in right order
for (var i=0, length = map.length; i < length; i++) {
  result.push(list[map[i].index]);
}

// print sorted list
print(result);

I don’t understand a couple of things. To wit: What does it mean, “The compareFunction can be invoked multiple times per element within the array”? Can someone show me an example of that. Secondly, I understand what’s being done in the example, but I don’t understand the potential “high[er] overhead” of the compareFunction. The example shown here seems really straightforward and mapping the array into an object, sorting its value, then putting it back into an array would take much more overhead I’d think at first glance. I understand this is a simple example, and probably not intended for anything else than to show the procedure. But can someone give an example of when it would be lower overhead to map like this? It seems like a lot more work.

Thanks!