I'm looking to make this much quicker. I've contemplated using a tree, but I'm not sure if that would actually help much.

I feel like the problem is for most cases you don't need to calculate all the possible maximums only a hand full, but I'm not sure where to draw the line

Thanks so much for the input, Jasper

```
public class SpecialMax {
//initialized to the lowest possible value of j;
public static int jdex = 0;
//initialized to the highest possible value of i;
public static int idex;
//will hold possible maximums
public static Stack<Integer> possibleMaxs = new Stack<Integer> ();
public static int calculate (int[] a){
if (isPositive(a)){
int size = a.length;
int counterJ;
counterJ = size-1;
//find and return an ordered version of a
int [] ordered = orderBySize (a);
while (counterJ>0){
/* The first time this function is called, the Jvalue will be
* the largest it can be, similarly, the Ivalue that is found
* is the smallest
*/
int jVal = ordered[counterJ];
int iVal = test (a, jVal);
possibleMaxs.push(jVal-iVal);
counterJ--;
}
int answer = possibleMaxs.pop();
while (!possibleMaxs.empty()){
if (answer<possibleMaxs.peek()){
answer = possibleMaxs.pop();
} else {
possibleMaxs.pop();
}
}
System.out.println("The maximum of a[j]-a[i] with j>=i is: ");
return answer;
} else {
System.out.println ("Invalid input, array must be positive");
return 0; //error
}
}
//Check to make sure the array contains positive numbers
public static boolean isPositive(int[] a){
boolean positive = true;
int size = a.length;
for (int i=0; i<size; i++){
if (a[i]<0){
positive = false;
break;
}
}
return positive;
}
public static int[] orderBySize (int[] a){
//orders the array into ascending order
int [] answer = a.clone();
Arrays.sort(answer);
return answer;
}
/*Test returns an Ival to match the input Jval it accounts for
* the fact that jdex<idex.
*/
public static int test (int[] a, int jVal){
int size = a.length;
//initialized to highest possible value
int tempMin = jVal;
//keeps a running tally
Stack<Integer> mIndices = new Stack<Integer> ();
//finds the index of the jVal being tested
for (int i=0; i<size; i++) {
if (jVal==a[i]){
//finds the highest index for instance
if (jdex<i){
jdex = i;
}
}
}
//look for the optimal minimal below jdex;
for (int i=0; i<jdex; i++){
if (a[i]<tempMin){
tempMin = a[i];
mIndices.push(i);
}
}
//returns the index of the last min
if (!mIndices.empty()){
idex = mIndices.pop();
}
return tempMin;
}
}
```