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Update 2

I added a weight lookup to the sort function, which increased the performance by about 100% as well as the stability, as the previous sort function didn't consider all types, and as 1 == "1" the result depends on the inital order of the Array, as @Esailija points out.

The intent of the question is to improve this Answer of mine, i liked the question and since it got accepted and i felt like there is some performance to squeeze out of the sort function. I asked this question here since i hadn't many clues left where to start.
Maybe this makes things clearer as well

Update

I rephrased the complete question, as many people stated i was not specific enough, i did my best to specify what i mean. Also i rewrote the sort function to better express the intent of the question.

  • Let arrayPrev be an Array (A) ,where A consists of 0 to n Elements' (E)

    • Let an Element either be
      • of a Primitive type
        • boolean, string, number, undefined, null
      • a Reference to an Object O, where O.type = [object Object] and O can consist of
        • 0 to n Properties P, where P is defined like Element plus
          • an circular Reference to any P in O
        • Where any O can be contained 1 to n times. In the sense of GetReferencedName(E1) === GetReferencedName(E2)...
      • a Reference to an O, where O.type = [object Array] and O is defined like A
      • a circular Reference to any E in A
  • Let arrayCurr be an Array of the same length as arrayPrev

Illustrated in the following example

var x = {
    a:"A Property",
    x:"24th Property",
    obj: {
        a: "A Property"
    },
    prim : 1,
}
x.obj.circ = x;

var y = {
    a:"A Property",
    x:"24th Property",
    obj: {
        a: "A Property"
    },
    prim : 1,
}
y.obj.circ = y;
var z = {};

var a = [x,x,x,null,undefined,1,y,"2",x,z]
var b = [z,x,x,y,undefined,1,null,"2",x,x]    
console.log (sort(a),sort(b,a))

The Question is, how can i efficiently sort an Array B, such that any Reference to an Object or value of an Primitive, shares the exact same Position as in a Previously, by the same compareFunction, sorted, Array A.

Like the above example

Console Log

Where the resulting array shall fall under the rules.

  • Let arrayPrev contain the Elements' of a and arrayCurr contain the Elements' of b
    1. Let arrayPrev be sorted by a CompareFunction *C*.
    2. Let arrayCurr be sorted by the same C.
      • Let the result of sorting arrayCur be such, that when acessing an E in arrayCur at Position n, let n e.g be 5
        • if type of E is Object GetReferencedName(arrayCurr[n]) === GetReferencedName(arrayPrev[n])
        • if type of E is Primitive GetValue(arrayCurr[n]) === GetValue(arrayPrev[n])
        • i.e b[n] === a[n] e.g b[5] === a[5]
      • Meaning all Elements should be grouped by type, and in this sorted by value.
      • Where any call to a Function *F* in C shall be at least implemented before ES5, such that compatibility is given without the need of any shim.

My current approach is to Mark the Objects in arrayPrev to sort them accordingly in arrayCurr and later delete the Marker again. But that seems rather not that efficient. Heres the current sort function used.

function sort3 (curr,prev) {
         var weight = {
            "[object Undefined]":6,         
            "[object Object]":5,
            "[object Null]":4,
            "[object String]":3,
            "[object Number]":2,
            "[object Boolean]":1
        }
        if (prev) { //mark the objects
            for (var i = prev.length,j,t;i>0;i--) {
                t = typeof (j = prev[i]);
                if (j != null && t === "object") {
                     j._pos = i;   
                } else if (t !== "object" && t != "undefined" ) break;
            }
        }

        curr.sort (sorter);

        if (prev) {
            for (var k = prev.length,l,t;k>0;k--) {
                t = typeof (l = prev[k]);
                if (t === "object" && l != null) {
                    delete l._pos;
                } else if (t !== "object" && t != "undefined" ) break;
            }
        }
        return curr;

        function sorter (a,b) {

             var tStr = Object.prototype.toString
             var types = [tStr.call(a),tStr.call(b)]
             var ret = [0,0];
             if (types[0] === types[1] && types[0] === "[object Object]") {
                 if (prev) return a._pos - b._pos
                 else {
                     return a === b ? 0 : 1;
                 }
             } else if (types [0] !== types [1]){
                     return weight[types[0]] - weight[types[1]]
             }



            return a>b?1:a<b?-1:0;
        }

    }

Heres a Fiddle as well as a JSPerf (feel free to add your snippet)
And the old Fiddle

share|improve this question
    
what should happen incase your object has multiple keys ? – Parthik Gosar Jun 6 '13 at 18:29
1  
You must state the requirement more clearly. Can the arrays contain only numbers and Object objects? What if it contains 2 different objects that look the same? How should circular objects compare to other objects? – user123444555621 Jun 6 '13 at 19:19
3  
Sorting elements of different types makes no sense in your context. Why would you have an array with "2",1, Object and undefined in the first place? Don't abuse the dynamic nature of the language. The fact you get polymorphism for free does not mean that logically array elements should not represent the same type. – Benjamin Gruenbaum Jun 12 '13 at 14:09
2  
This is impossible because your compare function doesn't mostly compare anything so the order is dependent on the way items are laid out in the array initially. You have to define a way to compare everything so that the result will not be dependent on the initial order of the array (except when using unstable sort algorithms but that can be made not the case). – Esailija Jun 12 '13 at 14:22
1  
@C5H8NNaO4 I'd probably use a set in an answer to that previous question. In order to sort you still need a total order Which you haven't fully defined. Any answer you get before you get that ordering is basically rubbish since it makes no logical sense. – Benjamin Gruenbaum Jun 15 '13 at 19:43
up vote 1 down vote accepted
+50

If you know the arrays contain the same elements (with the same number of repetitions, possibly in a different order), then you can just copy the old array into the new one, like so:

function strangeSort(curr, prev) {
    curr.length = 0;             // delete the contents of curr
    curr.push.apply(curr, prev); // append the contents of prev to curr
}

If you don't know the arrays contain the same elements, it doesn't make sense to do what you're asking.

Judging by the thing you linked, it's likely that you're trying to determine whether the arrays contain the same elements. In that case, the question you're asking isn't the question you mean to ask, and a sort-based approach may not be what you want at all. Instead, I recommend a count-based algorithm.

  1. Compare the lengths of the arrays. If they're different, the arrays do not contain the same elements; return false. If the lengths are equal, continue.
  2. Iterate through the first array and associate each element with a count of how many times you've seen it. It may be necessary or convenient to maintain counts for items of different data types differently. (If you maintain counts for objects by giving them a new property, delete the new properties before you return.)
  3. Iterate through the second array. For each element,
    1. If no count is recorded for the element, return false.
    2. If the count for the element is positive, decrease it by 1.
    3. If the count for the element is 0, the element appears more times in the second array than in the first. Return false.
  4. Return true.

If step 4 is reached, every item appears at least as many times in the first array as it does in the second. Otherwise, it would have been detected in step 3.1 or 3.3. If any item appeared more times in the first array than in the second, the first array would be bigger, and the algorithm would have returned in step 1. Thus, the arrays must contain the same elements with the same number of repetitions.

share|improve this answer
    
Thank you for your Answer, the suggestion about the comparison, i gave it a shot and it runs about 500% faster than the current. That's quite a nice improvement! =) – C5H8NNaO4 Jun 20 '13 at 16:23
    
Will you gonna be the next Jon Skeet? – C5H8NNaO4 Jul 28 '13 at 11:05

from the description, it appears you can simply use a sort function:

function sortOb(a,b){a=JSON.stringify(a);b=JSON.stringify(b); return a===b?0:(a>b?1:-1);}
var x = {a:1};
var y = {a:2};

var a = [1,x,2,3,y,4,x]
var b = [1,y,3,4,x,x,2]

a.sort(sortOb);
b.sort(sortOb);
console.log (a,b);
share|improve this answer
1  
JSON.stringify is rather not efficient on e.g a 10k array with objects of having nested objects. also it would fail on circular objects – C5H8NNaO4 Jun 6 '13 at 18:23
    
you didn't show a 10k array... circular refs aside, the sheer amount of user-land code required to deeply sort is likely to cause it to run slower than the C-based JSON.stringify native routine. you can write your own caching stringifier instead of using JSON proper if the native version is too slow/fragile for your needs. im mostly trying to show the simple methodology of blackboxing the tedious details. – dandavis Jun 6 '13 at 18:33
    
Well that's true, I thought that was made clear by asking for an efficient general solution , thanks for pointing that out, I''ll try to rephrase the question when I'm back from mobile :) – C5H8NNaO4 Jun 6 '13 at 19:22

Your function always returns a copy of sort.el, but you can have that easier:

var sort = (function () {
    var tmp;

    function sorter(a, b) {
        var types = [typeof a, typeof b];
        if (types[0] === "object" && types[1] === "object") {
            return tmp.indexOf(a) - tmp.indexOf(b); // sort by position in original
        }
        if (types[0] == "object") {
            return 1;
        }
        if (types[1] == "object") {
            return -1;
        }
        return a > b ? 1 : a < b ? -1 : 0;
    }


    return function (el) {
        if (tmp) {
            for (var i = 0; i < el.length; i++) {
                el[i] = tmp[i]; // edit el in-place, same order as tmp
            }
            return el;
        }
        tmp = [].slice.call(el); // copy original
        return tmp = el.sort(sorter); // cache result
    };

})();

Note that I replaced sort.el by tmp and a closure. Fiddle: http://jsfiddle.net/VLSKK/


Edit: This (as well as your original solution)

  • only works when the arrays contain the same elements.
  • maintains the order of different objects in a

but

  • does not mess up when called more than twice
share|improve this answer
    
Hey there, thank you for the answer =) unfortunatley, i want to avoid Array.indexOf if possible, As you suggested i updated the question being more specific – C5H8NNaO4 Jun 7 '13 at 19:28
    
+1 for a this nice solution to the question, as described before the update! – C5H8NNaO4 Jun 7 '13 at 19:45

Try this

function ComplexSort (a, b)
{
     if(typeof a == "object") { 
        a = a.a; 
    } 
    if(typeof b == "object") { 
       b = b.a;
    } 
    return a-b;
}

var x = {a:1};
var y = {a:2};

var a = [1,x,2,3,y,4,x]
var b = [1,y,3,4,x,x,2]

a.sort(ComplexSort);
b.sort(ComplexSort);
console.log ("Consistent", a,b);
share|improve this answer
2  
And if my Object don't have a propertie a ? Thats not consistent. – C5H8NNaO4 Jun 6 '13 at 18:24

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