I'm writing an A.I. to solve a "Maze of Life" puzzle. Attempting to store states to a `HashSet`

slows everything down. It's faster to run it without a set of explored states. I'm fairly confident my node (state storage) implements equals and `hashCode`

well as tests show a `HashSet`

doesn't add duplicate states. I may need to rework the `hashCode`

function, but I believe what's slowing it down is the `HashSet`

rehashing and resizing.

I've tried setting the initial capacity to a very large number, but it's still extremely slow:

```
val initCapacity = java.lang.Math.pow(initialGrid.width*initialGrid.height,3).intValue()
val frontier = new QuickQueue[Node](initCapacity)
```

Here is the quick queue code:

```
class QuickQueue[T](capacity: Int) {
val hashSet = new HashSet[T](capacity)
val queue = new Queue[T]
//methods below
```

For more info, here is the hash function. I store the grid values in bytes in two arrays and access it using tuples:

```
override def hashCode(): Int = {
var sum = Math.pow(grid.goalCoords._1, grid.goalCoords._2).toInt
for (y <- 0 until grid.height) {
for (x <- 0 until grid.width) {
sum += Math.pow(grid((x, y)).doubleValue(), x.toDouble).toInt
}
sum += Math.pow(sum, y).toInt
}
return sum
}
```

Any suggestions on how to setup a `HashSet`

that wont slow things down? Maybe another suggestion of how to remember explored states?

P.S. using `java.util.HashSet`

, and even with initial capacity set, it takes 80 seconds vs < 7 seconds w/o the set

`Math.pow`

in`hashCode`

! You might want to cache the hash values. – Randall Schulz Feb 5 '13 at 19:09`val`

to cashe hashCode. Also, if you store the bytes in standard library collections, you can also use the hash function they provide directly. – Kane Feb 5 '13 at 19:23