I thought about new sorting algorithm, and I couldn't understand the problem in the obvious solution:

```
public int[] sort(int[] arr){
//Find the biggest number in the array
int max=1;
for(int i : arr)
if(i>max)
max=i;
//Sorting the figures into big array
int[] LongSorted= new int[max+1];
for(int i=1; i<LongSorted.length; i++)
LongSorted[i]=0;
for(int i : arr)
LongSorted[i]+=i;
//Transfer the sorted figures into the original array
int index=0;
for(int i=0; i<arr.length; i++){
while(LongSorted[index]==0){
index++;
}
arr[i]=index;
if(LongSorted[index]!=(index)){
for(int j=0; j<(LongSorted[index]/index)-1; j++){
i++;
arr[i]=index;
}
}
index++;
}
return arr;
}
```

Basically, the algorithm use the figure's value as index.

If you want to **use** this method, please be aware that the figure '0' is not considered.

You may correct it by the follow instructions:

**1**. Change the LongSorted type to 'Integer'.

**2**. Change the value of 'i' in the LongSorted's initialize "for" to '1'.

**3**. A previous line before the last "for", add the following condition:

```
if(LongSorted[0]!=null)
arr[0]=0;
```

**4**. Change the value of 'i' in the last "for" to '1'.

**Tnx!**

`{2, Integer.MAX_VALUE - 1, 1}`

. It has 3 entries. Your line`int[] LongSorted= new int[max+1];`

will create an array with more than two billion entries to sort my 3 numbers. That sounds like a big waste of space. – jlordo Dec 15 '12 at 22:14