So I spent a week on this, and asked my peers, but we couldn't get it right. I turned it in as is, just to be transparent. I just want to know my flaws and mistakes, and understand why this isn't working. I tried my best, and traced it, but the deeper the recursion gets, the more confused I get. Hopefully someone with better insight than I do can help me.

Also, I know this code isn't the best. I was taking baby steps, and I just wanted to get it to work before I optimize it.

My code:

```
public static int select(int[] array, int left, int right, int k) {
if( array.length <= 1 ) {
return array[0];
}
double proccessedLength = (right-left)+1; // The part of the array we're working with
int numberOfGroups = (int) proccessedLength/5;
if( ((double)proccessedLength%5) > 0 ) {
numberOfGroups++;
}
int numberOfRemainders = (int) (proccessedLength%5);
int[] mediansOfEachGroup = new int[numberOfGroups];
// Finds the medians of the input array
for(int x = 0; x < numberOfGroups; x++ ) {
if( (numberOfRemainders > 0) && x==(numberOfGroups-1)) { // Last Remainder group
int[] tempArrayForInsertionSorting = new int[numberOfRemainders];
int start=(int) (left+proccessedLength-numberOfRemainders);
System.out.println(numberOfRemainders);
for(int y=0; y < numberOfRemainders; y++ ) {
tempArrayForInsertionSorting[y] = array[start];
start++;
}
int[] sortedTempArray = insertionSort(tempArrayForInsertionSorting,tempArrayForInsertionSorting.length-1);
if( numberOfRemainders%2 == 0 ) {
mediansOfEachGroup[numberOfGroups-1] = sortedTempArray[(numberOfRemainders/2)-1];
} else {
mediansOfEachGroup[numberOfGroups-1] = sortedTempArray[(int)numberOfRemainders/3];
}
} else { // Groups of 5
int[] tempArrayForInsertionSorting = new int[5];
int start=left+(x*5);
for(int y=0; y < 5; y++ ) {
tempArrayForInsertionSorting[y] = array[start];
start++;
}
int[] sortedTempArray = insertionSort(tempArrayForInsertionSorting,tempArrayForInsertionSorting.length-1);
mediansOfEachGroup[x] = sortedTempArray[2];
}
}
int medianOfMedians = select(mediansOfEachGroup, left, mediansOfEachGroup.length-1, (int) mediansOfEachGroup.length/2);
int[] arrayCopyForPartition = new int[array.length];
System.arraycopy(array,0,arrayCopyForPartition,0,array.length);
int positionOfMedianOfMedians = partitionForSelect(arrayCopyForPartition, left, right, medianOfMedians);
if( positionOfMedianOfMedians == k ) {
return medianOfMedians;
} else if( positionOfMedianOfMedians < k ){
return select( array, left, k+1, positionOfMedianOfMedians);
} else {
return select( array, k, right, positionOfMedianOfMedians-k);
}
}
public static void insertionSort(int array[], int n) {
for (int x = 1; x < n; x++){
int y = x;
int temp = array[x];
while ( (y > 0 ) && (array[y-1] > temp)){
array[y] = array[y-1];
y--;
}
array[y] = temp;
}
}
public static int partitionForSelect(int anArray[], int left, int right, int pivot) {
int x = pivot;
int i = left-1;
for(int j = left; j < right; j++ ) {
comparisons++;
if(anArray[j] <= x) {
i = i + 1;
int temp = anArray[i];
anArray[i] = anArray[j];
anArray[j] = temp;
}
}
return i+1;
}
```