`Math.round()`

vs. `Math.floor()`

The first thing to note: `Math.round()`

is never the right function to use when you're dealing with a value returned by `Math.random()`

. It should be `Math.floor()`

instead, and then you don't need that `-1`

correction on the `length`

. This is because `Math.random()`

returns a value that is `>= 0`

and `< 1`

.

This is a bit tricky, so let's take a specific example: an array with three elements. As vihan1086's excellent answer explains, the elements of this array are numbered `0`

, `1`

, and `2`

. To select a random element from this array, you want an equal chance of getting any one of those three values.

Let's see how that works out with `Math.round( Math.random() * array.length - 1 )`

. The array length is `3`

, so we will multiply `Math.random()`

by `2`

. Now we have a value `n`

that is `>= 0`

and `< 2`

. We round that number to the nearest integer:

If `n`

is `>= 0`

and `< .5`

, it rounds to `0`

.

If `n`

is `>= .5`

and `< 1.5`

, it rounds to `1`

.

If `n`

is `>= 1.5`

and `< 2`

, it rounds to `2`

.

So far so good. We have a chance of getting any of the three values we need, 0, 1, or 2. But what *are* the chances?

Look closely at those ranges. The middle range (`.5`

up to `1.5`

) is *twice as long* as the other two ranges (`0`

up to `.5`

, and `1.5`

up to `2`

). Instead of an equal chance for any of the three index values, we have a 25% chance of getting `0`

, a **50%** chance of getting `1`

, and a 25% chance of `2`

. Oops.

Instead, we need to multiply the `Math.random()`

result by the entire array length of `3`

, so `n`

is `>= 0`

and `< 3`

, and then floor that result: `Math.floor( Math.random() * array.length )`

It works like this:

If `n`

is `>= 0`

and `< 1`

, it floors to `0`

.

If `n`

is `>= 1`

and `< 2`

, it floors to `1`

.

If `n`

is `>= 2`

and `< 3`

, it floors to `2`

.

Now we clearly have an equal chance of hitting any of the three values `0`

, `1`

, or `2`

, because each of those ranges is the same length.

### Keeping it simple

Here is a recommendation: don't write all this code in one expression. Break it up into simple functions that are self-explanatory and make sense. Here's how I like to do this particular task (picking a random element from an array):

```
// Return a random integer in the range 0 through n - 1
function randomInt( n ) {
return Math.floor( Math.random() * n );
}
// Return a random element from an array
function randomElement( array ) {
return array[ randomInt(array.length) ];
}
```

Then the rest of the code is straightforward:

```
var examples = [ 1, 2, 3, 56, "foxy", 9999, "jaguar", 5.4, "caveman" ];
var example = randomElement( examples );
console.log( example );
```

See how much simpler it is this way? Now you don't have to do that math calculation every time you want to get a random element from an array, you can simply call `randomElement(array)`

.