366

Is it possible to sort and rearrange an array that looks like the following?

itemsArray = [
    ['Anne', 'a'],
    ['Bob', 'b'],
    ['Henry', 'b'],
    ['Andrew', 'd'],
    ['Jason', 'c'],
    ['Thomas', 'b']
]

to match the arrangement of this array:

sortingArr = [ 'b', 'c', 'b', 'b', 'a', 'd' ]

Unfortunately, I don’t have any IDs to keep track on. I would need to priority the items-array to match the sortingArr as close as possible.

Here is the output I’m looking for:

itemsArray = [
    ['Bob', 'b'],
    ['Jason', 'c'],
    ['Henry', 'b'],
    ['Thomas', 'b']
    ['Anne', 'a'],
    ['Andrew', 'd'],
]

How can this be done?

3

29 Answers 29

629

One-Line answer.

itemsArray.sort(function(a, b){  
  return sortingArr.indexOf(a) - sortingArr.indexOf(b);
});

Or even shorter:

itemsArray.sort((a, b) => sortingArr.indexOf(a) - sortingArr.indexOf(b));
13
  • 47
    This will mutate itemsArray. Depending on the performance requirement, it would be a lot safer to do itemsArray.slice().sort(...). Mar 6, 2018 at 19:09
  • 2
    sort method return an array. see developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/… Oct 12, 2018 at 6:26
  • 17
    It does return the array, but it also does the sort in place and mutates the original. Nov 13, 2018 at 0:22
  • 2
    Can some-one explain why / how this works. I have tried it with data that is similar to the OPs, an array of objects of which one member is a GUID, and a sorting array of those GUIDs. I was dubious before I tried it and discovered that .. as I expected this had no effect on the order.
    – Morvael
    Sep 13, 2019 at 12:58
  • 22
    @Morvael, this is due to this answer requiring sortingArr to contain all values in itemsArray. The fix is to push items to the back of the array if they don't exist in sortingArr : allProducts.sort((product1, product2) => { const index1 = manualSort.indexOf(product1.id); const index2 = manualSort.indexOf(product2.id); return ( (index1 > -1 ? index1 : Infinity) - (index2 > -1 ? index2 : Infinity) ); });
    – Freshollie
    Oct 9, 2019 at 9:20
95

Something like:

items = [
    ['Anne', 'a'],
    ['Bob', 'b'],
    ['Henry', 'b'],
    ['Andrew', 'd'],
    ['Jason', 'c'],
    ['Thomas', 'b']
]

sorting = [ 'b', 'c', 'b', 'b', 'c', 'd' ];
result = []

sorting.forEach(function(key) {
    var found = false;
    items = items.filter(function(item) {
        if(!found && item[1] == key) {
            result.push(item);
            found = true;
            return false;
        } else
            return true;
    })
})

result.forEach(function(item) {
    document.writeln(item[0]) /// Bob Jason Henry Thomas Andrew
})

Here's shorter code, but it destroys the sorting array:

result = items.map(function(item) {
    var n = sorting.indexOf(item[1]);
    sorting[n] = '';
    return [n, item]
}).sort().map(function(j) { return j[1] })
3
  • 60
    Quadratic complexity! Try it with a big amount of data… Nov 9, 2012 at 9:27
  • 7
    @thg435: complexity has little to do with "optimization", unless the volume of data is guaranteed to be small (which may be the case here). Nov 9, 2012 at 9:36
  • 4
    @georg When it comes to the complexity of algorithms acting on data structures, the optimizing of algorithms with quadratic (or worse) complexities is never premature and is always necessary (unless you can guarantee the size of the data set is going to be small). The difference in performance is (quite literally) expressed in orders of magnitude.
    – Abion47
    Feb 4, 2019 at 20:26
51

If you use the native array sort function, you can pass in a custom comparator to be used when sorting the array. The comparator should return a negative number if the first value is less than the second, zero if they're equal, and a positive number if the first value is greater.

So if I understand the example you're giving correctly, you could do something like:

function sortFunc(a, b) {
  var sortingArr = [ 'b', 'c', 'b', 'b', 'c', 'd' ];
  return sortingArr.indexOf(a[1]) - sortingArr.indexOf(b[1]);
}

itemsArray.sort(sortFunc);
4
  • 8
    That won't work, the resulting order would be b,b,b,c,c,d as indexOf returns the first index. Nov 9, 2012 at 8:50
  • Thank you, but I would like the output of itemsArray to match the sortingArray. Nov 9, 2012 at 8:51
  • 11
    I prefer this answer if the "ids" in the sortingArr are unique - which, thankfully, they are in my case :) May 12, 2017 at 16:57
  • 4
    You should declare the sortingArray outside of the function to avoir re-declaring it on each sorting iteration Sep 6, 2018 at 8:33
32

Case 1: Original Question (No Libraries)

Plenty of other answers that work. :)

Case 2: Original Question (Lodash.js or Underscore.js)

var groups = _.groupBy(itemArray, 1);
var result = _.map(sortArray, function (i) { return groups[i].shift(); });

Case 3: Sort Array1 as if it were Array2

I'm guessing that most people came here looking for an equivalent to PHP's array_multisort (I did) so I thought I'd post that answer as well. There are a couple options:

1. There's an existing JS implementation of array_multisort(). Thanks to @Adnan for pointing it out in the comments. It is pretty large, though.

2. Write your own. (JSFiddle demo)

function refSort (targetData, refData) {
  // Create an array of indices [0, 1, 2, ...N].
  var indices = Object.keys(refData);

  // Sort array of indices according to the reference data.
  indices.sort(function(indexA, indexB) {
    if (refData[indexA] < refData[indexB]) {
      return -1;
    } else if (refData[indexA] > refData[indexB]) {
      return 1;
    }
    return 0;
  });

  // Map array of indices to corresponding values of the target array.
  return indices.map(function(index) {
    return targetData[index];
  });
}

3. Lodash.js or Underscore.js (both popular, smaller libraries that focus on performance) offer helper functions that allow you to do this:

    var result = _.chain(sortArray)
      .pairs()
      .sortBy(1)
      .map(function (i) { return itemArray[i[0]]; })
      .value();

...Which will (1) group the sortArray into [index, value] pairs, (2) sort them by the value (you can also provide a callback here), (3) replace each of the pairs with the item from the itemArray at the index the pair originated from.

1
  • 1
    Excellent solution, alternatively you can use _.indexBy and remove the shift if your data structure is a little more complex
    – Frozenfire
    May 31, 2016 at 14:02
23

You could also use some modified version of the code below in ES6 style. This code is for arrays like:

var arrayToBeSorted = [1,2,3,4,5];
var arrayWithReferenceOrder = [3,5,8,9];

The actual operation:

arrayToBeSorted = arrayWithReferenceOrder.filter(v => arrayToBeSorted.includes(v));

The actual operation in ES5:

arrayToBeSorted = arrayWithReferenceOrder.filter(function(v) {
    return arrayToBeSorted.includes(v);
});

Should result in arrayToBeSorted = [3,5]

It does not destroy the reference array.

3
  • 4
    What if I the arrayToBeSorted is an Array of Objects ie: {1: {…}, 2: {…}, 3: {…}, 4: {…}, 5: {…}}? but the arrayWithReferenceOrder is just a normal array?
    – Crystal
    Nov 28, 2017 at 0:16
  • 5
    @sushruth how does this sort the array? May 19, 2019 at 11:39
  • @Crystal, that's an object, not an array of objects. The elements/items in an object have no order, that is, their order is not set. An array of objects would look something like [{name: "1"}, {name: "2"}, {name: "3"}, ...].
    – JohnK
    Mar 20, 2020 at 21:54
20

Something like:

//array1: array of elements to be sorted
//array2: array with the indexes

array1 = array2.map((object, i) => array1[object]);

The map function may not be available in all versions of JavaScript.

1
  • 1
    This is the cleanest answer, imo, but you don't need to use both object and i. Given an array arr of elements to be sorted and an array of indices ind: ind.map(index => arr[index])
    – rupumped
    Aug 17, 2023 at 19:44
19

function sortFunc(a, b) {
  var sortingArr = ["A", "B", "C"];
  return sortingArr.indexOf(a.type) - sortingArr.indexOf(b.type);
}

const itemsArray = [
  {
    type: "A",
  },
  {
    type: "C",
  },
  {
    type: "B",
  },
];
console.log(itemsArray);
itemsArray.sort(sortFunc);
console.log(itemsArray);

0
12

ES6

const arrayMap = itemsArray.reduce(
  (accumulator, currentValue) => ({
    ...accumulator,
    [currentValue[1]]: currentValue,
  }),
  {}
);
const result = sortingArr.map(key => arrayMap[key]);

More examples with different input arrays

1
  • 1
    The result is [["Thomas","b"],["Jason","c"],["Thomas","b"],["Thomas","b"],["Anne","a"],["Andrew","d"]] which is incorrect.
    – foxiris
    Mar 5 at 8:01
9

In case you get here needing to do this with an array of objects, here is an adaptation of Durgpal Singh's awesome answer:

const itemsArray = [
  { name: 'Anne', id: 'a' },
  { name: 'Bob', id: 'b' },
  { name: 'Henry', id: 'b' },
  { name: 'Andrew', id: 'd' },
  { name: 'Jason', id: 'c' },
  { name: 'Thomas', id: 'b' }
]

const sortingArr = [ 'b', 'c', 'b', 'b', 'a', 'd' ]

Object.keys(itemsArray).sort((a, b) => {
  return sortingArr.indexOf(itemsArray[a].id) - sortingArr.indexOf(itemsArray[b].id);
})
8

I would use an intermediary object (itemsMap), thus avoiding quadratic complexity:

function createItemsMap(itemsArray) { // {"a": ["Anne"], "b": ["Bob", "Henry"], …}
  var itemsMap = {};
  for (var i = 0, item; (item = itemsArray[i]); ++i) {
    (itemsMap[item[1]] || (itemsMap[item[1]] = [])).push(item[0]);
  }
  return itemsMap;
}

function sortByKeys(itemsArray, sortingArr) {
  var itemsMap = createItemsMap(itemsArray), result = [];
  for (var i = 0; i < sortingArr.length; ++i) {
    var key = sortingArr[i];
    result.push([itemsMap[key].shift(), key]);
  }
  return result;
}

See http://jsfiddle.net/eUskE/

2
  • What is the complexity of the resulting implementation? Oct 14, 2023 at 21:08
  • @PeterMortensen O(n) Oct 15, 2023 at 13:08
6
var sortedArray = [];
for(var i=0; i < sortingArr.length; i++) {
    var found = false;
    for(var j=0; j < itemsArray.length && !found; j++) {
        if(itemsArray[j][1] == sortingArr[i]) {
            sortedArray.push(itemsArray[j]);
            itemsArray.splice(j,1);
            found = true;
        }
    }
}

http://jsfiddle.net/s7b2P/

Resulting order: Bob,Jason,Henry,Thomas,Anne,Andrew

6

For getting a new ordered array, you could take a Map and collect all items with the wanted key in an array and map the wanted ordered keys by taking sifted element of the wanted group.

var itemsArray = [['Anne', 'a'], ['Bob', 'b'], ['Henry', 'b'], ['Andrew', 'd'], ['Jason', 'c'], ['Thomas', 'b']],
    sortingArr = [ 'b', 'c', 'b', 'b', 'a', 'd' ],
    map = itemsArray.reduce((m, a) => m.set(a[1], (m.get(a[1]) || []).concat([a])), new Map),
    result = sortingArr.map(k => (map.get(k) || []).shift());

console.log(result);

2
  • 👏That's my fav, I do the same yet use {} instead of Map 🤷‍♂️
    – Can Rau
    Feb 3, 2020 at 19:21
  • 1
    @Nina Scholz I just scrolled through to find your answer and wasn't disappointed. I knew you would be here. Kudos to you for always helping out :)
    – camelCase
    Apr 3, 2021 at 14:42
6

I hope that I am helping someone, but if you are trying to sort an array of objects by another array on the first array's key, for example, you want to sort this array of objects:

const foo = [
  {name: 'currency-question', key: 'value'},
  {name: 'phone-question', key: 'value'},
  {name: 'date-question', key: 'value'},
  {name: 'text-question', key: 'value'}
];        

by this array:

const bar = ['text-question', 'phone-question', 'currency-question', 'date-question'];

you can do so by:

foo.sort((a, b) => bar.indexOf(a.name) - bar.indexOf(b.name));
4
let a = ['A', 'B', 'C' ]

let b = [3, 2, 1]

let c = [1.0, 5.0, 2.0]

// these array can be sorted by sorting order of b

const zip = rows => rows[0].map((_, c) => rows.map(row => row[c]))

const sortBy = (a, b, c) => {
  const zippedArray = zip([a, b, c])
  const sortedZipped = zippedArray.sort((x, y) => x[1] - y[1])

  return zip(sortedZipped)
}

sortBy(a, b, c)
1
  • 4
    Please consider adding a brief explanation/description explaining why/how this code answers the question.
    – Yannis
    Jun 12, 2018 at 11:47
4

This is what I was looking for and I did for sorting an Array of Arrays based on another Array:

It's On^3 and might not be the best practice(ES6)

function sortArray(arr, arr1){
      return arr.map(item => {
        let a = [];
        for(let i=0; i< arr1.length; i++){
          for (const el of item) {
            if(el == arr1[i]){
              a.push(el);
            }   
            }
          }
          return a;
      });
    }
    
    const arr1 = ['fname', 'city', 'name'];
  const arr = [['fname', 'city', 'name'],
  ['fname', 'city', 'name', 'name', 'city','fname']];
  console.log(sortArray(arr,arr1));
It might help someone

3

Use:

let sortedOrder = [ 'b', 'c', 'b', 'b' ]
let itemsArray = [ 
    ['Anne', 'a'],
    ['Bob', 'b'],
    ['Henry', 'b'],
    ['Andrew', 'd'],
    ['Jason', 'c'],
    ['Thomas', 'b']
]
a.itemsArray(function (a, b) {
    let A = a[1]
    let B = b[1]

    if(A != undefined)
        A = A.toLowerCase()

    if(B != undefined)
        B = B.toLowerCase()

    let indA = sortedOrder.indexOf(A)
    let indB = sortedOrder.indexOf(B)

    if (indA == -1 )
        indA = sortedOrder.length-1
    if( indB == -1)
        indB = sortedOrder.length-1

    if (indA < indB ) {
        return -1;
    } else if (indA > indB) {
        return 1;
    }
    return 0;
})

This solution will append the objects at the end if the sorting key is not present in the reference array.

2

I had to do this for a JSON payload I receive from an API, but it wasn't in the order I wanted it.

Array to be the reference array, the one you want the second array sorted by:

var columns = [
    {last_name: "last_name"},
    {first_name: "first_name"},
    {book_description: "book_description"},
    {book_id: "book_id"},
    {book_number: "book_number"},
    {due_date: "due_date"},
    {loaned_out: "loaned_out"}
];

I did these as objects because these will have other properties eventually.

Created array:

 var referenceArray= [];
 for (var key in columns) {
     for (var j in columns[key]){
         referenceArray.push(j);
     }
  }

Used this with result set from database. I don't know how efficient it is but with the few number of columns I used, it worked fine.

result.forEach((element, index, array) => {                            
    var tr = document.createElement('tr');
    for (var i = 0; i < referenceArray.length - 1; i++) {
        var td = document.createElement('td');
        td.innerHTML = element[referenceArray[i]];
        tr.appendChild(td);

    }
    tableBody.appendChild(tr);
}); 
1

You could try this method.

const sortListByRanking = (rankingList, listToSort) => {
  let result = []

  for (let id of rankingList) {
    for (let item of listToSort) {
      if (item && item[1] === id) {
        result.push(item)
      }
    }
  }

  return result
}
1
  const result = sortingArr.map((i) => {
    const pos = itemsArray.findIndex(j => j[1] === i);
    const item = itemsArray[pos];
    itemsArray.splice(pos, 1);
    return item;
  });
1
  • An explanation would be in order. E.g., what is the idea/gist? From the Help Center: "...always explain why the solution you're presenting is appropriate and how it works". Please respond by editing (changing) your answer, not here in comments (but *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** without *** *** *** *** *** "Edit:", "Update:", or similar - the answer should appear as if it was written today). Oct 14, 2023 at 21:38
1

This approach features a sorting algorithm where for each item of the order array, the data is searched for a corresponding item and this item is swapped by the left neighbor until the item is at the right position.

 a   b   b   d   c   b   data
<b>  a   b   d   c   b   right order of <>
 b  <c>  a   b   d   b
 b   c  <b>  a   d   b
 b   c   b  <b>  a   d
 b   c   b   b  <a>  d
 b   c   b   b   a  <d>

const
    data = [['Anne', 'a'], ['Bob', 'b'], ['Henry', 'b'], ['Andrew', 'd'], ['Jason', 'c'], ['Thomas', 'b']],
    order = ['b', 'c', 'b', 'b', 'a', 'd'];

let i = 0;

for (const o of order) {
    let j = i;
    while (data[j][1] !== o) j++;
    while (i !== j) {
        [data[j], data[j - 1]] = [data[j - 1], data[j]];
        j--;
    }
    i++;
}

console.log(data);
.as-console-wrapper { max-height: 100% !important; top: 0; }

0

This seems to work for me:

var outputArray=['10','6','8','10','4','6','2','10','4','0','2','10','0'];
var template=['0','2','4','6','8','10'];
var temp=[];

for(i=0;i<template.length;i++) {
  for(x=0;x<outputArray.length;x++){
    if(template[i] == outputArray[x]) temp.push(outputArray[x])
  };
}

outputArray = temp;
alert(outputArray)
0
0

This should work:

var i,search, itemsArraySorted = [];
while(sortingArr.length) {
    search = sortingArr.shift();
    for(i = 0; i<itemsArray.length; i++) {
        if(itemsArray[i][1] == search) {
            itemsArraySorted.push(itemsArray[i]);
            break;
        }
    } 
}

itemsArray = itemsArraySorted;
0

With a numerical sortingArr:

itemsArray.sort(function(a, b){  
  return sortingArr[itemsArray.indexOf(a)] - sortingArr[itemsArray.indexOf(b)];
});
0
0

let itemsArray = [
    ['Anne', 'a'],
    ['Bob', 'b'],
    ['Henry', 'b'],
    ['Andrew', 'd'],
    ['Jason', 'c'],
    ['Thomas', 'b']
]

let sortingArr = [ 'b', 'c', 'b', 'b', 'a', 'd' ]


function sortArray(sortedArr, unsortedArr, unsortedArrToSort){

    let holderArr = []
    let invertedIndex = {}
    // initialize
    unsortedArr.forEach((e)=>invertedIndex[e] = {indices:[],index:0})
    // create inverted index to save time
    unsortedArr.forEach((e,i)=>invertedIndex[e]['indices'].push(i))

    for(let sortValue of sortedArr){

        let currIndex = invertedIndex?.[sortValue]?.['index']

        let searchedIndex = invertedIndex?.[sortValue]?.['indices']?.[currIndex]

        if(searchedIndex===undefined)
        continue

        holderArr.push(unsortedArrToSort[searchedIndex])

        invertedIndex[sortValue]['index']+=1
    }

    return holderArr

}

console.log(sortArray(sortingArr, itemsArray.map(e=>e[1]), itemsArray))

0

This is immediate to achieve by a Classifier.

Just add all your items to a Classifier by converting each pair [name, char] to a tern [char, name, char].

const 
    classifier = new Classifier()
        .letAll(data.map(([name, char]) => [char, name, char]));

This way, all the pairs [name, char] sharing same char are grouped in the same subtree within the Classifier internal tree structure.

const 
    got = sorting
        .map(char => classifier.view(true, char).poll());

The call view(true, char) provides a Classifier.View of the subtree addressed by the given char. This view is a queue of arrays expressed relative to the subtree. The first parameter true determines the order inside the queue. By passing false the items would appear in reverse order. The method poll() can therefore consume all the pairs [name, char] sharing the same char.

You can check validity of the proposed solution by:

import { Classifier } from "@ut8pia/classifier/queue/Classifier.js";
import assert from "assert";

const 
    data = [
        ['Anne', 'a'],
        ['Bob', 'b'],
        ['Henry', 'b'],
        ['Andrew', 'd'],
        ['Jason', 'c'],
        ['Thomas', 'b']
    ],

    sorting = [ 'b', 'c', 'b', 'b', 'a', 'd' ],

    expected = [
        ['Bob', 'b'], 
        ['Jason', 'c'], 
        ['Henry', 'b'],  
        ['Thomas', 'b'], 
        ['Anne', 'a'], 
        ['Andrew', 'd']
    ];

assert.deepEqual(got, expected)

It's important to notice that the View does not replicate the Classifier tree structure. It only offers an interface to deal with relative arrays. Any extraction of a pair [name, char] from the View results in the extraction of the corresponding tern [char, name, char] from the Classifier itself.

To become acquainted with the concepts of Classifier and Classifier.View you might want to explore the @ut8pia/classifier library.

-1

Use the $.inArray() method from jQuery. You then could do something like this

var sortingArr = [ 'b', 'c', 'b', 'b', 'c', 'd' ];
var newSortedArray = new Array();

for(var i=sortingArr.length; i--;) {
 var foundIn = $.inArray(sortingArr[i], itemsArray);
 newSortedArray.push(itemsArray[foundIn]);
}
-1

Use intersection of two arrays.

Ex:

var sortArray = ['a', 'b', 'c',  'd', 'e'];

var arrayToBeSort = ['z', 's', 'b',  'e', 'a'];

_.intersection(sortArray, arrayToBeSort) 

=> ['a', 'b', 'e']

if 'z and 's' are out of range of first array, append it at the end of result

-1
this.arrToBeSorted =  this.arrToBeSorted.sort(function(a, b){  
  return uppthis.sorrtingByArray.findIndex(x => x.Id == a.ByPramaeterSorted) - uppthis.sorrtingByArray.findIndex(x => x.Id == b.ByPramaeterSorted);
});
1
  • An explanation would be in order. E.g., what is the idea/gist? From the Help Center: "...always explain why the solution you're presenting is appropriate and how it works". Please respond by editing (changing) your answer, not here in comments (but *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** without *** *** *** *** *** "Edit:", "Update:", or similar - the answer should appear as if it was written today). Oct 14, 2023 at 21:37
-5

You can do something like this:

function getSorted(itemsArray, sortingArr) {
  var result = [];
  for(var i=0; i<arr.length; i++) {
    result[i] = arr[sortArr[i]];
  }
  return result;
}

You can test it out here.

Note: this assumes the arrays you pass in are equal in size. You'd need to add some additional checks if this may not be the case.

Refer to this link.

Reference

1
  • 2
    This badly needs editing. not only does the jfiddle return the wrong result, the function argument names don't match the inner content?
    – twobob
    May 5, 2017 at 10:47

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