### History

This problem has been solved for more than a century, going back to Hermann Hollerith and punchcards. Huge sets of punchcards, such as those resulting from a census, were sorted by dividing them into batches, sorting each batch, and then merging the sorted batches--the so-called
"merge sort". Those tape drives you see spinning in 1950's sci-fi movies were most likely merging multiple sorted tapes onto one.

### Algorithm

All the algorithms you need can be found at https://en.wikipedia.org/wiki/Merge_algorithm. Writing this in JS is straightforward. More information is available in the question Algorithm for N-way merge. See also this question, which is an almost exact duplicate, although I'm not sure any of the answers are very good.

The naive concat-and-resort approach does not even qualify as an answer to the problem. The somewhat naive take-the-next-minimum-value-from-any-input approach is much better, but not optimal, because it takes more time than necessary to find the next input to take a value from. That is why the best solution using something called a "min-heap" or a "priority queue".

### Simple JS solution

Here's a real simple version, which I make no claim to be optimized, other than in the sense of being able to see what it is doing:

```
const data = [[1, 3, 5], [2, 4]];
// Merge an array or pre-sorted arrays, based on the given sort criteria.
function merge(arrays, sortFunc) {
let result = [], next;
// Add an 'index' property to each array to keep track of where we are in it.
arrays.forEach(array => array.index = 0);
// Find the next array to pull from.
// Just sort the list of arrays by their current value and take the first one.
function findNext() {
return arrays.filter(array => array.index < array.length)
.sort((a, b) => sortFunc(a[a.index], b[b.index]))[0];
}
// This is the heart of the algorithm.
while (next = findNext()) result.push(next[next.index++]);
return result;
}
function arithAscending(a, b) { return a - b; }
console.log(merge(data, arithAscending));
```

The above code maintains an `index`

property on each input array to remember where we are. The simplistic alternative would be to `shift`

the element from the front of each array when it is its turn to be merged, but that would be rather inefficient.

### Optimizing finding the next array to pull from

This naive implementation of `findNext`

, to find the array to pull the next value from, simply sorts the list of inputs by the first element, and takes the first array in the result. You can optimize this by using a "min-heap" to manage the arrays in sorted order, which removes the need to resort them each time. A min-heap is a tree, consisting of nodes, where each node contains a value which is the minimum of all values below, with left and right nodes giving additional (greater) values, and so on. You can find information on a JS implementation of a min-heap here.

### A generator solution

It might be slightly cleaner to write this as a generator which takes a list of iterables as inputs, which includes arrays.

```
// Test data.
const data = [[1, 3, 5], [2, 4]];
// Merge an array or pre-sorted arrays, based on the given sort criteria.
function* merge(iterables, sortFunc) {
let next;
// Create iterators, with "result" property to hold most recent result.
const iterators = iterables.map(iterable => {
const iterator = iterable[Symbol.iterator]();
iterator.result = iterator.next();
return iterator;
});
// Find the next iterator whose value to use.
function findNext() {
return iterators
.filter(iterator => !iterator.result.done)
.reduce((ret, cur) => !ret || cur.result.value < ret.result.value ? cur : ret,
null);
}
// This is the heart of the algorithm.
while (next = findNext()) {
yield next.result.value;
next.result = next.next();
}
}
function arithAscending(a, b) { return a - b; }
console.log(Array.from(merge(data, arithAscending)));
```