Basically, it is a function that takes `3`

arguments.

`i`

- The number you are testing to see if it is part of the sequence.

`current`

- the current Fibonacci number that you are testing against, defaults to `1`

so that you don't need to supply the second argument.

`before`

- the Fibonacci number that comes before the `current`

number in the sequence, defaults to `0`

so that you don't need to supply the third argument.

**EXAMPLE VALUES**

if `current`

is `5`

, `before`

is `3`

if `current`

is `8`

, `before`

is `5`

The function compares the value of `i`

, the first argument, and sees if it is equal to either `0`

, or the `current`

Fibonacci value. If it is equal to `current`

or `0`

, it is a Fibonacci number (because `0`

is the first number in the sequence).

It then looks to see if `current`

is larger than `i`

. If it is larger, it is not in the sequence. This is because there is no point continuing to check if `4`

is in the sequence if `5`

is the `current`

value.

If neither of those scenarios match, we just call the function again, passing in the value of `i`

, finding the next number in the sequence `current + before`

, and the value of `before`

will be the `current`

number in the sequence.

example:

`i`

is `15`

, `current`

is `5`

, `before`

is `3`

. When calling the function again, it will call

```
is_fibonacci?(i, current + before, current)
```

which will evaluate to

```
is_fibonacci?(15, 5 + 3, 5
```

**NOTE**

Ruby has a nice syntax where the `if`

can come **after** the thing you want to happen.

```
if a < b
puts "#{a} is greater than #{b}"
```

is the exact same as

```
puts "#{a} is greater than #{b}" if a < b
```

It just cuts down on the line count, and reads a little more like english.