Just remember:

`pivot`

is the first item in the Array
`left`

is items lower than `pivot`

`right`

is items higher than `pivot`

So the first time you have `qsort( [7,3,28,8,9,13,1500,45] )`

:

```
left=[3] pivot=7 right=[28,8,9,13,1500,45]
```

Now `qsort()`

is recursively called on both the `left`

and `right`

Arrays.

Let's just look at `left`

, so `qsort( [3] )`

:

```
left=[] pivot=3 right=[]
```

Once again, `qsort()`

is recursively called on the `left`

and `right`

Arrays.

Again, let's just look at `left`

, so `qsort( [] )`

:

And what is the very first thing `qsort()`

does?

```
if (a.length == 0) return [];
```

If it received an empty Array (which it did here), it just returns an empty Array, halting execution on that branch.

Because each invocation of `qsort()`

pops the first item off the Array, each time `qsort()`

is invoked, the Array it received gets shorter and shorter, until an empty Array is sent to `qsort()`

.

## Another way to think of it:

The potentially confusing part is that `qsort()`

knocks the first item off and then divides the rest of the Array into 2 parts.

Just imagine if it *didn't* split the Array, but just knocked the first item off.

This function doesn't really do anything but recursively call itself with the remainder of the Array.

```
function recursive_test( arr ) {
if( arr.length === 0 ) { return []; } // empty Array? Just return.
var first_item = arr.shift(); // first item in the Array (the head)
// now "arr" represents the remainder (the tail)
return recursive_test( arr ); // Just send the "tail" to the same function
// so the next time through, the Array is
} // shorter by 1
```

So when you invoke the function, the following happens:

```
var array = [5,2,8,3,6,9,0]; // original Array
recursive_test( array );
// the first time it gets the full Array
// [5,2,8,3,6,9,0]
// but then it pops the first item off, and calls itself with the "tail" of the Array
// [2,8,3,6,9,0]
// again it calls itself, just with the "tail"
// [8,3,6,9,0]
// and again, and again, and again...
// [3,6,9,0]
// [6,9,0]
// [9,0]
// [0]
// []
// The last time it gets an empty Array.
// The function sees that it gets an empty Array, and just returns,
// halting the recursion
```

The exact same thing is happening in your function, except that instead of a "head" and a "tail" with the "tail" being passed on recursively, you get a "head" (`pivot`

) and a "tail" that gets split into 2 Arrays (`left`

and `right`

).

Both parts of the tail are sent to a recursive calls, getting their heads popped off, splitting the remainder, and doing it again until there's nothing left.