# What would be the better algorithm for generating following result?

We have a input of array having `n` numbers (non-zero) i.e.

``````input--> [a1, a2, a3, a4, a5, ...., aN] (not in order)
``````

Now we want the output as

``````output--> Ai <= Aj >= Ak <= Al >= Am <= ....An.
``````

i have written a code for this problem and it is quite fine but not optimized if i talk about time and space complexity then it must not be good solution.

``````function test(array){
if(array && array.length){
let newArray = [];
array = array.sort();
let m;
if(array.length % 2){
m = (array.length +1 )/2;
}else{
m = (array.length)/2;
}
newArray.push(array[m-1]);
for(let i=1;i<=m;i++){
if(array[m-1+i])
newArray.push(array[m-1+i]);
if(array[m-1-i])
newArray.push(array[m-1-i]);
}
console.log(newArray);
return newArray;
}else{
throw 'invalid argument';
}
}

test([1,2,3,4]);
``````

Please help me if you any idea to optimise like using no other variables(it will reduce space complexity). Thanks

• Can you explain in words what you're trying to do? It's not entirely clear, I'm not sure what `Ai <= Aj >= Ak <= Al >= Am <= ....An.` means – CertainPerformance Aug 28 at 7:04

You don't need to sort the array. Just do one pass over the array, and in each step fix only a[i], a[i+1].

Suppose a <= a >= a...<= a[i-1] >= a[i]

Now, if a[i] <= a[i+1], continue by increasing i.

if a[i] > a[i+1], swap them.

Symmetrically, when i is even, if a[i] < a[i+1] swap a[i],a[i+1].

• nope, this would be wrong! check with following: ip: 1, 6, 2 , 8, 10, 3 – ReturnZero Aug 28 at 9:01
• @ReturnZero {1,6,2,8,10,3} -> {1,6,2,10,8,3} -> {1,6,2,10,3,8} – S.A Aug 28 at 9:06
• Thanks, it is a nice solution . – vishal bansal Aug 28 at 10:56
• @shukiavraham Symmetrically, when i is even, if a[i] < a[i+1] swap a[i],a[i+1]. this line making sense now : / – ReturnZero Aug 28 at 13:02

Your current algorithm runs on `O(n log n)` time. The `.sort()` at the beginning takes `O(n log n)` time, while the `for` loop below it runs in `O(n)` time. So, one possible improvement would be to change the `sort` function to use counting sort instead (which has time complexity `O(n + k)`, where `k` is the range from the lowest number to the highest number). This will reduce the overall time complexity from `O(n log n)` to `O(n + k)`, which will be a significant improvement with larger sets:

``````function countingSort(array) {
const counts = array.reduce((a, num) => {
a[num] = (a[num] || 0) + 1;
return a;
}, {});
/*
ok, maybe this is cheating
return Object.entries(counts).reduce((arr, [num, occurrences]) => {
for (let i = 0; i < occurrences; i++) {
arr.push(Number(num));
}
return arr;
}, []);
*/
const sorted = [];
const min = Math.min(...array);
const max = Math.max(...array);
for (let i = min; i <= max; i++) {
for (let j = 0; j < counts[i]; j++) {
sorted.push(i);
}
}
return sorted;
}

function test(array){
if(array && array.length){
let newArray = [];
array = countingSort(array);
let m;
if(array.length % 2){
m = (array.length +1 )/2;
}else{
m = (array.length)/2;
}
newArray.push(array[m-1]);
for(let i=1;i<=m;i++){
if(array[m-1+i])
newArray.push(array[m-1+i]);
if(array[m-1-i])
newArray.push(array[m-1-i]);
}
console.log(newArray);
return newArray;
}else{
throw 'invalid argument';
}
}

test([1,2,3,4]);``````

Counting sort performs best when there aren't large gaps between the numbers. If there are large gaps between the numbers, you could use radix sort instead, which also runs in linear time (but is a bit more complicated to code).

(if you do use the built-in `sort` function, though, make sure to sort numerically, with `.sort((a, b) => a - b)`, otherwise your resulting array will be sorted lexiographically, eg `[1, 11, 2]`, which is not desirable)

This could be a better logic finally :-

``````    function optimizedSort(array) {
if(array && array.length){
let temp;
for(let i=0;i<array.length;i++){
if((i+1)%2){
// i is odd

if(array[i]>=array[i+1]){
temp = array[i];
array[i] = array[i+1];
array[i+1] = temp;
}

}else{
// i is even

if(array[i]<=array[i+1]){
temp = array[i];
array[i] = array[i+1];
array[i+1] = temp;
}
}
}
console.log('********',array);
return array;
}else{
throw 'invalid argument';
}
}
optimizedSort([1,2,3,4]);
``````