# Implementing a binary insertion sort using binary search in Java

I'm having trouble combining these two algorithms together. I've been asked to modify `Binary Search` to return the index that an element should be inserted into an array. I've been then asked to implement a `Binary Insertion Sort` that uses my `Binary Search` to sort an array of randomly generated `ints`.

My `Binary Search` works the way it's supposed to, returning the correct index whenever I test it alone. I wrote out `Binary Insertion Sort` to get a feel for how it works, and got that to work as well. As soon as I combine the two together, it breaks. I know I'm implementing them incorrectly together, but I'm not sure where my problem lays.

Here's what I've got:

``````public class Assignment3
{
public static void main(String[] args)
{
int[] binary = { 1, 7, 4, 9, 10, 2, 6, 12, 3, 8, 5 };

ModifiedBinaryInsertionSort(binary);

}

static int ModifiedBinarySearch(int[] theArray, int theElement)
{
int leftIndex = 0;
int rightIndex = theArray.length - 1;
int middleIndex = 0;

while(leftIndex <= rightIndex)
{
middleIndex = (leftIndex + rightIndex) / 2;

if (theElement == theArray[middleIndex])
return middleIndex;
else if (theElement < theArray[middleIndex])
rightIndex = middleIndex - 1;
else
leftIndex = middleIndex + 1;
}

return middleIndex - 1;
}

static void ModifiedBinaryInsertionSort(int[] theArray)
{
int i = 0;
int[] returnArray = new int[theArray.length + 1];

for(i = 0; i < theArray.length; i++)
{
returnArray[ModifiedBinarySearch(theArray, theArray[i])] = theArray[i];
}

for(i = 0; i < theArray.length; i++)
{
System.out.print(returnArray[i] + " ");
}
}
}
``````

The return value I get for this when I run it is `1 0 0 0 0 2 0 0 3 5 12`. Any suggestions?

UPDATE: updated ModifiedBinaryInsertionSort

``````static void ModifiedBinaryInsertionSort(int[] theArray)
{
int index = 0;
int element = 0;
int[] returnArray = new int[theArray.length];

for (int i = 1; i < theArray.lenght - 1; i++)
{
element = theArray[i];
index = ModifiedBinarySearch(theArray, 0, i, element);
returnArray[i] = element;

while (index >= 0 && theArray[index] > element)
{
theArray[index + 1] = theArray[index];
index = index - 1;
}
returnArray[index + 1] = element;
}
}
``````
-

How an insertion sort works is, it creates a new empty array B and, for each element in the unsorted array A, it binary searches into the section of B that has been built so far (From left to right), shifts all elements to the right of the location in B it choose one right and inserts the element in. So you are building up an at-all-times sorted array in B until it is the full size of B and contains everything in A.

Two things:

One, the binary search should be able to take an int startOfArray and an int endOfArray, and it will only binary search between those two points. This allows you to make it consider only the part of array B that is actually the sorted array.

Two, before inserting, you must move all elements one to the right before inserting into the gap you've made.

-
This helped me figure out one of my major problems. I didn't use the proper `Binary Insertion Sort` algorithm for this. Now I just have to figure out where to plug in my binary search into it and I should be good to go. Thank you. –  delete this account Jun 6 '13 at 3:20
@Anonymity Could you post your updated code? You should be performing your binary search on returnArray, i.e. `ModifiedBinarySearch(returnArray, startOfArray, endOfArray, theArray[i])` (including Patashu's suggested update). –  beaker Jun 6 '13 at 15:50
@Beaker posted. It still doesn't work however, so I'm going to see what I can do today. –  delete this account Jun 6 '13 at 16:23