How do I find number of all the series (combinations of an array that have at least 3 consecutive values, like [7,8,9]) and have the longest number of values?

from [3,4,1,2,2] it would be 2 - ([1,2,3,4] twice, but ignore [1,2,3]*2 and [2,3,4]*2)

from [9,6,7,5,8] it would be 1 - ([5,6,7,8,9])

from [1,2,3,1,2] it would be 4 ([1,2,3] * 3)

Thanks

**edit**

the point of this is to count runs in a crib hand. It doesn't matter what order the array has the series in, as long as the series counted don't overlap all cards.

**edit 1**

```
var $cards:Array = [9, 4, 3, 2, 2];
var $ranks:Array = [];
var $c:int;
for each ($c in $cards) {
if ($ranks[$c] == null) {
$ranks[$c] = 1;
}else {
$ranks[$c] ++;
}
}
```

this will create an array ($ranks) that will have these values `[2:2, 3:1, 4:1, 9:1]`

from this I will be able to multiply the values under 2,3 ad4 4 and multiply them by 3, so I would get 2*1*1 * 3

I'm trying to figure out now how to find the consecutive values, and ignore ones that aren't (like the 9)