Ok, I'm late on this and an answer is already accepted, but I wonder why nobody has used a clean and simple counter yet?

```
public class Counter
{
static Counter[] vtab = new Counter[]
{
new Counter(),
new Counter() { public void print( int first, int last ) {} }
};
public void print( int first, int last )
{
vtab[ ( last - first - 1 ) >>> 31 ].print( first, last - 1 );
System.out.println( last );
}
public static void main( String[] args )
{
vtab[ 0 ].print( 1, 100 );
}
}
```

Thread safe, configurable, no exceptions, no dependance on API side effects, just plain OOP and some trivial math.

For those not familiar with binary operators here is how it works:

The `( x >>> n )`

expression moves all bits of the integer value `x`

to the right by `n`

places. Lower bits simply fall off the right side by this operation and new bits that come in from the left side are always `0`

.

So the effect of `( x >>> 31 )`

is to move the highest bit of `x`

to the lowest place and to set all other bits of `x`

to `0`

. The result is now always either `0`

or `1`

for all possible values of `x`

.

As the highest bit of an `int`

is the sign bit which is `0`

for positive values and `1`

for negative values, the expression `( x >>> 31 )`

evaluates to `0`

for all positve values of `x`

and to `1`

for all negative values of `x`

.

Now if both `first`

and `last`

are positive numbers and if `last`

is greater than `first`

, the result of `( last - first - 1 )`

will be `>= 0`

and if `last == first`

it will be `-1`

.

So `( ( last - first - 1 ) >>> 31 )`

evaluates to `0`

if `last`

is greater than `first`

and becomes `1`

if they are equal.

Now this value `0/1`

is used to switch between the 2 implementations of `print( int first, int last )`

based on the comparision of `first`

and `last`

. At first the recursion takes place without printing anything. `print( 1, 100 )`

calls `print( 1, 99 )`

and so on... until `last`

equals `first`

which causes a switch to the other implementation of `print`

which in turn does nothing at all. So now the stack unwinds again and the values are printed on the way down in ascending order and the invocation of `vtab[ 0 ].print( 1, 100 )`

finishes normally.