# missing integer codility Javascript

Write a function:

``````function solution(A);
``````

that, given a non-empty zero-indexed array A of N integers, returns the minimal positive integer (greater than 0) that does not occur in A. For example, given:

``````A[0] = 1
A[1] = 3
A[2] = 6
A[3] = 4
A[4] = 1
A[5] = 2
``````

the function should return 5. Assume that:

``````• N is an integer within the range [1..100,000]; • each element of array A is an integer within the range
``````

[−2,147,483,648..2,147,483,647].

Complexity: • expected worst-case time complexity is O(N); • expected worst-case space complexity is O(N), beyond input storage (not counting the storage required for input arguments).

My Answer is 100% WRONG! What is wrong with it? First let me state the obvious errors

• return value - i return 0, because there is no indication of what to return, if there is no missing integer.

Assumptions I made that may be wrong

• returns the minimal positive integer (greater than 0) that does not occur in A. Here I do not check for negative values

my code, which works on own test cases, and works on negative numbers too, got 0%.

``````function solution(A) {

// write your code in JavaScript (Node.js 0.12)
A.sort();
var a_length = A.length;

for(var i = 0; i < a_length; i++){

// if i is 0 - 1 = -1 then do not do the following
// if i is 1 - 1 - 0 then do the follow
// if i >= 0 then do the following
if(i - 1 >= 0){

// remember above there is a A.sort() so it
// looks like this
// A[0] = 1
// A[1] = 1
// A[2] = 2
// A[3] = 3
// A[4] = 4
// A[5] = 6

// if A[1] is 1 and A[1-1 = 0] is 1 then this is 1>1 false
// if A[2] is 2 and A[2-1 = 1] is 1 then this is 1>1 false
// if A[3] is 3 and A[3-1 = 2] is 2 then this is 1>1 false
// if A[4] is 4 and A[4-1 = 3] is 3 then this is 1>1 false
// if A[5] is 6 and A[5-1 = 4] is 4 then this is 2>1 true return A[i - 1] + 1 where A[5 - 1 = 4] is 4 + 1 is 5. 5 is returned.
if(A[i] - A[i - 1] > 1){
return A[i - 1] + 1;
}
}
}

// this does not check for negative
// returns the minimal positive integer (greater than 0
// this is a return no minimal positive integer found
return 0;
}
``````

Everything is wrong, example test result:

simple simple test 0.072 s WRONG ANSWER got 3 expected 1

Why does it work for me and not for them.

• just why don't you simply change the algorithm, find the smallest number and keep on adding one to it, say that to be variable "number" then check if that "number" is present in the given set of array and if not, then that would be your solution and of course the complexity is high but it would get you a new direction to think and ya keep a not of highest number in the array, so that when the "number" is equal to highest number you can return zero when it is required – Sumit Surana Jun 9 '15 at 7:00

``````function solution(A) {
var min = 1;
A.sort(function(a,b){
// Sort the array explicit way
return a - b;
});

for (var i in A) {
if (A[i] > -1 && A[i] == min) {
min++;
}
}

return min;
}
``````
• Nice and clean answer. Easy to understand. – Hoon Jun 10 '19 at 16:11
• this is good and simple I just add a break to it otherwise it'll keep iterating even when you already have the answer your looking for and cause a performance issue – Fabian Rios Jan 2 '20 at 16:01
• If you add this line `const positiveMember = A.filter(a => a > -1);` after sorting and in the for loop use `positiveMember` instead of A - it would minimize the complexity - considering the loop will run only for the positive integers. So no need for the first condition in `if`. – Himel Nag Rana Oct 6 '20 at 9:17

There is my solution with JavaScript for Codility MissingInteger (got 100/100)

``````function solution(A) {
const len = A.length;
const hash = {};
for (let i = 0; i < len; i++) {
// here we are making an object with all
// numbers in a given array as object keys and values
// if 0 is given as possible digit we could assing
// hash[A[i]] = true; or any truthy value
hash[A[i]] = A[i];
}
for (let i = 1; i < 1000002; i++) {
// here we are trying to find any number
// between 1 and 1000001 (given constraints)
// which do not exists in an object
// if the number is not in the object that's our missing one
if(!hash[i]) return i;
}
return 1;
}
``````
• Generally, answers are much more helpful if they include an explanation of what the code is intended to do, and why that solves the problem without introducing others. Thanks for improving the answer's reference value and making it more understandable! – Tim Diekmann Jun 18 '18 at 10:42
• @TimDiekmann Added some comments which I found might be useful. Thanks for suggestion. – Nikola Ravic Sep 27 '19 at 14:00

For this problem I like to start by sorting the given array. I then iterate through the sorted array with a reduce. I give the reduce an accumulator `acc` initially equal to `1` (that's what the 1 after the comma is for). Only when the element `val` is equal to the accumulator do I increment the accumulator. Otherwise, I return the accumulator as is. When I can no longer find an element in the array equal to the accumulator, that accumulator is the lowest missing positive integer.

``````const solution = A => {
A.sort((a, b) => a - b);
return A.reduce((acc, val) => acc === val ? acc + 1 : acc, 1);
}
``````

I know this question's been around for a while but I hope this answer is useful for someone. I use Array.prototype.sort(), Array.prototype.reduce(), and a ternary in this answer. A knowledge of those patterns should give more insight into this answer.

``````function solution(A) {
A.sort(function(a,b){
// Sort the array explicit way
return a - b;
});
return A.reduce((prev, next)=> {
if(next > -1 && next === prev) {
prev++;
}
return prev;
}, 1);
;
}``````

My JS solution got 100 across the board. Basically, I generate a new array whose keys will be the values of the original array and set each to some truthy value. This does two things: it takes the negative values out of the iteration loop of the new array, and also allows you to loop from the smallest value up and return the first index that gives you undefined.

``````function solution(A) {
orderedArr = [];
for (let i = 0; i < A.length; i++) {
if (!orderedArr[A[i]]) {
orderedArr[A[i]] = true;
}
}
if (orderedArr.length === 0) return 1;
for (let i = 1; i < orderedArr.length; i++) {
if (!orderedArr[i]) {
return i;
}
}
return orderedArr.length;
}
``````
``````function solution(A) {
// write your code in JavaScript (Node.js 6.4.0)
var b = A.sort(function(a,b){return a-b});
var length = b.length;
var min = b[0];
var max = b[length-1];
if (max<=0){return 1;}
if (min<=0 && max==1){return 2;}
if (min>1){return 1;}
if (min >=0){
for(var i=0; i<length; i++){
if(b[i+1]- b[i] > 1){
return b[i]+1;
}
}
}
if (min<=0 && max>=0){
for(var i=0; i<length; i++){
if(b[i]>0 && b[i-1]<=0){
if(b[i]-0>1){
return 1;
}
if(b[i+1]-b[i]>1){
return b[i]+1;
}
}
if(b[i]>0){
if(b[i+1]- b[i] > 1){
return b[i]+1;
}
}
}
}
return max+1;
``````

}

• Please explain how this answers the question instead of just pasting code. – kinggs Sep 13 '17 at 9:48

Score 100 out of 100:

``````function solution(A) {
// write your code in JavaScript (Node.js 8.9.4)
const B = Array.from(new Set(A)).filter(v => v > 0).sort((a,b) => a - b);
//First create a unique Array by creating a new set,
//which then we filter on values greater than 0.
//We sort with an explicit function,
//otherwise our integers are converted to strings
//and sorting will be based on first character rather than on value

let i = 1; //set our initial value

for(const val of B){ //iterate over the unique values
if(i < val){
return i;
//if val is greater than i, that means the value of i was
//not present in our  array hence we return it
}
i++; //if the value was present we go to the next value, hence increase by 1
}
return i;
//if we went over the whole array, that means all values were present;
//hence the new value of i, which equals to the highest value of the array + 1 is the correct answer.
//Since the loop would not run in case of an empty array (which due to the filter also occurs in case of negative values),
//the value of i is still 1 and the correct answer.
}
``````

If you do not want to use set (for example, because you are using old ES version) you can filter like this:

``````A.filter((v,i,arr) => v > 0 && arr.indexOf(v) === i)
``````

My final solution :

``````function solution(A) {
A = [...new Set(A)];
let min = 1;
A.sort((x,y) => x-y);
for (i in A) {
if (A[i] > -1 && A[i] == min) { min ++;}
}
return min;
}
``````

I find it important to remove the duplicates for an array that is huge and then sort it out this way when you fund the solution the execution would stop.

test : solution([1,2,5,7,8,3,4,2,1,9,3,3,3,3,3,3,3,3,3,3,3,3,33,3,3,3,36,-2,-1,-1,6,10,12,13,13,13,13,15,14,17,10]) -> result 11;

My solution:

``````function solution(A) {
// write your code in JavaScript (Node.js 6.4.0)
var B = A.sort(function(a,b){return a-b});
if(A.length == 1) {
if(A[0] > 0) {
if(A[0]>1) {
return 1
} else {
return A[0]+ 1;
}
} else {
return 1
}
} else if(A.length > 1) {
let max = Math.max.apply(null,A);
let min = Math.min.apply(null,A);
if(max > 0) {
if(B[0]-0 > 1) { //for arrays that have a minimum higher than 1
return 1
}
for(i=0;i<B.length-1;i++) {
if(B[i+1]- B[i] > 1){ //check the difference between next and current number, we also ignore the case of [x,-1,1,x2], since if a 0 is omitted, 1-(-1) will make 0 the highest missing number
if(B[i] == -1 && B[i+1] == 1) {
//do nothing
} else {
if(B[i]>0) {
return B[i]+1; //if the first number is positive, we can say the number after it is the smallest possible integer
} else {
return 1
}
}
}
}
return max + 1;
} else {
return 1
}

} else {
return null;
}
}
``````
``````function solution(A){
A.sort((a, b) => a-b);
let int = 1;
for(let i = 0; i < A.length; i++){

if(A[i] > 0 && A[i] === int){
int++;
} else if (A[i] > 0 && A[i] > int){
return int;
}
}
return int;
}
``````
• Welcome to SO. You could improve your answer by providing a short description of the code. See help section (stackoverflow.com/help) for further guidance. – DaggeJ Sep 6 '19 at 7:02

Task score: 100% Correctness: 100% Performance: 100 %

``````function solution(A) {
// write your code in JavaScript (Node.js 8.9.4)

let map = {};
A.map(x => { map[x] = x; return x });

let result = 1;
while (true) {
if (!map[result]) return result;
result++;
};
}
``````

try the following,

``````let expecterNumber = 1;
A.sort(function(a,b){
return a - b;
});

for (let i in A) {
if (A[i] <= 0 || A[i] == A[i - 1]) continue
if (A[i] != expecterNumber) break

expecterNumber++;
}

return expecterNumber;
}
``````
``````function solution(A) {
const set = new Set(A);
let i = 1;
while (true) {
if (!set.has(i)) return i;
i++;
}
}
``````

Try something like this:

``````// Array containing your numbers
var Arr = [1, 3, 6, 4, 1, 2];
solution(Arr);

function solution(Arr) {
var len = Arr.length;
var min = 100001;
var num;

// check if it is empty
if (len == 0) {
}

// find array's min number
for(var i = 0; i < len; i++) {
if (Arr[i] < min) {
min = Arr[i];
}
}

for (var i = 0; i < 100000; i++) {
var x = Arr.indexOf(min);
if (x == -1) {
num = min;
break;
}
min++;
}

alert('Min value in array is: ' + num);
}
``````

Here is a working Jsfiddle demo.

• Example test: [-1, -3] WRONG ANSWER (got -2 expected 1) – Kamlesh Jun 17 '18 at 8:48
• @Kamlesh my solution does not account for negative numbers. You can add an additional check like: if num < 0 always return 1, if you need to handle those as well. – Sotiris Kiritsis Jun 17 '18 at 9:12

I got 100% by this solution

``````function solution(A) {
let  sortedOb={};
let biggest=0;
A.forEach(el=>{
if(el>0)
{
sortedOb[el]=0;
biggest =  el>biggest? el:biggest
}
});
let arr = Object.keys(sortedOb).map(el=>+el);
if(arr.length==0)
return 1;
for(let i = 1; i<=biggest; i ++){
if(sortedOb[i] === undefined)
return i
}
return biggest+1
}
``````

you can try this: I used C#

``````static void Main(string[] args)
{

int[] tempArray = new int[1000000];
int[] givenArray = new int[] { 1, 2,3};   // or     { 1, 2,6,4,3}

int results = myFunction(tempArray, givenArray);
Console.WriteLine(results);
}

private static int myFunction(int[] tempArray, int[] givenArray)
{
int res = 0;

for (int x = 1; x < tempArray.Length; x++)
{

if (!givenArray.Contains(x))
{
tempArray[x] = x;
}
}

for (int y = 0; y < tempArray.Length; y++)
{
if (tempArray[y] > 0)
{
res = tempArray[y];
break;
}
}
return res;
}
``````

one more way to do it ::

1. Sort the array and get lowest digit of array.

2. Increment the lowest digit and check if it already exists.

3. Return the lowest positive interger.

Got it !!

``````//var A =[1,3,4,10];
var i =0;
var solution = function(A) {
var min = 0;
var max = 0;
sortedArray = A.sort(function(a, b){return a-b});
min =sortedArray[0]; //min value
max =sortedArray[sortedArray.length-1];//max value in array

if(min < 0){
alert("min is 1"); //use return 1
}
else if(min > 0){
for(;i<sortedArray.length;i++){
x = checkifNoExists(min+i+1);//start checking the no. with min
if(x){
var lowest = min+i+1
break;
}
}
}
}
checkifNoExists = function(no){//to check if no exists in array
for(var y = 0;y<sortedArray.length;y++){
if(sortedArray[y] == no){
var found = no
}
}
if(found == "" || found == undefined){
return true;
}else{
return false;
}
}
``````

I tried to implement the JavaScript solution similar to the one I used in Java and came to realize that JavaScripts native `Array.sort()` was lacking performance...

I used a RadixSort implementation from @Blindman67 to sort the array and a simple loop and scored 100/100 @ O(N) or O(N * log(N)).

``````function solution(A) {
let min = 1;
for (let i = 0; i <= A.length; ++i) {
if (A[i] == min && min <= A.length) {
min++;
}
}
return min;
}

function emptyBuckets() {          // empties buckets and adds contents back to workArray
workArray.length = 0;
for (i = 0; i < 10; i += 1) {   // could have used buckets forEach but this is quicker on average
if (buckets[i].length > 0) {
workArray.push(...buckets[i]);
buckets[i].length = 0;
}
}
}

var i;                  // hoist declarations
const results = [];     // array that holds the finnal sorted numbers
const buckets = [[], [], [], [], [], [], [], [], [], []];  // buckets
const workArray = [...numbers]; // copy the numbers
var power = 0;                  // current digit as a power of ten
var tenPow = 1;                 // ten to the power of power
if (numbers.length <= 1) {        // if one or no items then dont sort
return workArray;           // dont sort if there is no need.
}
// as numbers are sorted and moved to the result array the numbers
while (workArray.length > 0) {
for (i = 0; i < workArray.length; i += 1) { // for all numbers still being sorted
if (workArray[i] < tenPow) {            // is the number samller than the current digit
results.push(workArray[i]);         //Yes it is sorted then remove a put o nthe result array
} else {
// add to bucket. Use Math.floor and save complexity doing it in one statement line
buckets[Math.floor(workArray[i] / tenPow) % 10].push(workArray[i]);
}
}
power += 1;
tenPow = Math.pow(10, power);
emptyBuckets();
}
return results;
}
``````

My swift 3 solution (100/100)

``````public func solution(_ A : inout [Int]) -> Int {
let set = Set(A)
var value = 1
while true {
if !set.contains(value) {
return value
}
value += 1
}
}
``````
• what do you get then @Pierre.Vriens? I mean your correctness and performance – user3664114 Nov 5 '18 at 11:25

This was my solution that scored 66% on Task Score, 100% on Correctness and only 25% on Performance. Not the most performant solution but a working one none the less.

1. First checks to make sure the highest number in the array is over 0, if not we end there with a result of 1
2. Loop through numbers from 1 to highest number in array
3. If that number does not have an index in the array, that is our result
4. If all numbers from 1 to the highest in the array are present, the next highest number is the result
``````const test1 = [1, 3, 6, 4, 1, 2]; // Returns 5
const test2 = [1, 2, 3]; // Returns 4
const test3 = [-1, -3]; // Returns 1

function solution(A) {
const lowestNum = Math.min.apply(Math, A);
const highestNum = Math.max.apply(Math, A);

// Check highestNum to make sure it's over 0
if (highestNum > 0) {
// Loop through all the numbers from 1 to the highes in the array
for (var i = 1; i < highestNum; i++) {
// If i does not have an index in the array, that's our solution
if (Number(A.indexOf(i)) === -1) {
return i;
}
}
// If looped through array and all have an index, the next number is our answer
return i + 1;
} else {
// If highestNum is not over 0, answer is 1
return 1;
}
}

solution(test1);
``````

JS Fiddle demo

Using Javascript, I did this in kind of an odd way but I got 100% on task score, correctness, and performance. However, I got an O(N) or O(N*log(N)). So, I'd like to lower that down.

``````function solution(A){
// remove all negative and zero
let positiveArray = A.filter(x => x > 0);
// sort all positive values
let sortedArray = positiveArray.sort((x,y) => x-y);
// return first that doesn't appear in order
return sortedArray.reduce((prev, next) => {
if(next === prev){
prev++
}
return prev;
},1);
}
``````

This is the solution that I tried during my test. Not that optimized but simple enough to read.

### Idea:

• Create a loop that will start from 1 as we are only looking for positive integer
• For every iteration, check if current number is available in array.
• If not available, break loop.

``````function solution(arr) {
let i;
let num = 1;
for (i = 1; i <= arr.length; i++) {
let exists = arr.some((n) => n === i);
if (!exists) {
num = i;
break;
}
}
return num;
}

console.log(solution([2, 3, 4, 5, 5]))

console.log(solution([2, 3, 4, 5, 5, 1]))``````

Solution 2 using hashmap:

This is a more performant and more advised solution.

• Loop over array and create a hashmap of values. This will remove duplicates and also make lookup easy.
• Also create a variable `max` and compute maximum value in array.
• Now loop from 1 to max.
• If all values are present, return max + 1

``````function solution(arr) {
let max = 0;
const hashMap = arr.reduce((map, num) => {
map[num] = true;
max = max > num ? max : num;
return map
}, {});

for(let i = 1; i <= max; i++) {
if (!hashMap[i]) return i
}
return max + 1;
}

console.log(solution([2, 3, 4, 5, 5]))

console.log(solution([2, 3, 4, 5, 5, 1]))``````

``````function solution(A) {
var swap = function(i, j) {
var tmp = A[i];
A[i] = A[j];
A[j] = tmp;
};
for (let i = 0; i < A.length; i++) {
while (0 < A[i] && A[i] - 1 < A.length
&& A[i] != i + 1
&& A[i] != A[A[i] - 1]) {
swap(i,A[i] - 1);
}
}
for (let i = 0; i < A.length; i++) {
if (A[i] != i + 1) {
return i + 1;
}
}
return A.length + 1;
}
``````

Here is the final solution you are looking for

Several great responses here. The most succinct and elegant IMO is https://stackoverflow.com/a/54079690 by @ben_flock.

However, just want to demonstrate a slightly more "efficient" option. I.E., it doesn't have to traverse the entire array after sorting. It short-circuits as soon as possible.

``````const solution = (values) => {
values.sort( (a, b) => a-b ); // sort numerically, not lexically
let smallest = 1; // default smallest positive integer
values.some( value =>
// ignore negative numbers
// find the smallest integer not in the array
value > 0 ? (value > smallest ? true : (smallest = value + 1) && false) : false
);

return smallest;
}
``````

I used Array.prototype.sort(), Array.prototype.some(), and a ternary in this answer.

Below code is written in JS

``````function solution(A) {

//Removing duplicate elements by using Set
A = Array.from(new Set(A));

// Sorting the array in ascending order
A.sort((a,b) => a-b);

let arrayLength = A.length;

// All negative numbers,if any, will be located in the beginning of the array after sorting, Hence removing them without iterating entire array (saves time complexity).

if(arrayLength) {   // Check for empty array
let removedItem = A.shift();
while(removedItem <= 0) {
removedItem = A.shift();
arrayLength--
}
A.unshift(removedItem); // last Element removed will either be negative(if all elements in array are negative) or a positive number. Hence pushing it back in to array.
}

// If first element is not 1 simply return 1, bcz that's the 1st  misssing integer.
if(A[0] != 1)
return 1;

// Finding the first missing integer - Worst Case Complexity - O(n).
let missingInteger = -1;
let i=0;
while(missingInteger < 0 && i <= arrayLength) {
if(A[i]+1 != A[i+1])
missingInteger = A[i]+1;
i++;
}
return missingInteger < 0? A[arrayLength - 1] + 1 : missingInteger;
}
``````

Hope it helps.

• Welcome to SO! You could improve your answer by providing a short description of the code. See help section (stackoverflow.com/help) for further guidance. – David García Bodego Nov 30 '19 at 3:48

For JavaScript try following. Test score 100/100

Detected time complexity: O(N) or O(N * log(N))

``````function solution(A) {
var missingInt = 1;

A.sort((a, b) => { return a - b; });

for (var i = 0; i < A.length; i++) {
if (A[i] >= (missingInt + 1)) {
break;
}
if (A[i] == missingInt) {
missingInt++;
}

}

return missingInt++;
}
``````
``````function solution(A) {
const dict = {};
let startFrom = 1;
for (let item of A) {
dict[item] = true;
// keep startFrom greater than every number already in the dictionary
while(dict[startFrom]) {
startFrom++;
}
}
return startFrom;
}
``````
• First get max number of array.
• Then iterate 1 to max number and check which number is not exist in array and return that number.
• Else return max+1;
``````function solution(A)
{
var max = A.reduce(function(a, b) {
return Math.max(a, b);
});
for(var i = 1; i <= max; i++){
if(!A.includes(i)){
return i;
}
}
if(i > max){
return i;
}
}
``````

In JavaScript

1st Solution:

``````function solution(A) {
for (i = 1; i < 1000000; i++) {
if(!A.includes(i)) return i;
}
}
``````

2nd Solution:

``````function solution(A) {
const set = new Set(A);
let i = 1;
while (set.has(i)) {
i++;
}
return i;
}
``````

3rd Solution:

``````function solution(A){
A = A.sort();
for (var i=0;i<A.length-1;i++){
if(A[i]>0 && A[i+1]!=(A[i]+1))
return (A[i]+1);
}
}
``````