# Insertion Sort in case of repeated values, doubly linked list ADT

I am having a weird problem with my insertion sort in the case of repeated values at the tail of the input. The most basic case I have got it to have problems with is the array {A,A,A}. Since I am tracking the initial indices, I am able to tell that this is improperly sorted such that the incorrect indices are stored, such that values are lost. Here is the implementation of the insertion sort:

``````    List A = new List();
String[] inputArray = {"A","A","A","A"};
String key;
int i, j;
//begin insertion sort
for (j = 1; j < inputArray.length; j++) {
i = j - 1;
key = inputArray[j];
while (i >= 0) {
if (key.compareTo(inputArray[i]) > 0) {
break;
}
inputArray[i+1] = inputArray[i];
A.moveTo(i+1);
//make sure we aren't trying to insert before first node
if (i > 0) { A.insertBefore(i); }
else { A.prepend(i); }
//remove node at cursor
A.delete();
i--;
System.out.println("inner:  "+ A);
}
inputArray[i+1] = key;
A.moveTo(i+1);
if (i >= 0) { A.insertBefore(j); System.out.println("insert: " + A);}
else { A.prepend(j); System.out.println("prepend: " + A);}
System.out.println("current cursor:" + A.getIndex());
A.delete();
System.out.println("outer: " + A);
}
``````

With the println that I have in this I get the following output:

``````inner:  0 0 2 3
prepend: 1 0 0 2 3
current cursor:1
outer: 1 0 2 3 //works fine the first time
inner:  1 0 1 3
inner:  0 1 1 3
prepend: 2 0 1 1 3
current cursor:1
outer: 2 1 1 3 //deletes the wrong value? Why?
inner:  2 1 1 2
inner:  2 1 1 2
inner:  0 2 1 2
prepend: 3 0 2 1 2
current cursor:1
outer: 3 2 1 2
``````

Here is the relevant portions of the List class:

``````class List {

private class Node {
//Fields

int data;
Node next, previous;
//Constructor

Node(int data) {
this.data = data;
next = null;
previous = null;
}

public String toString() {
return String.valueOf(data);
}
}
//Fields
private Node frontNode, backNode, cursorNode;
private int totalSize, cursorPosition;

//Constructor
List() {
frontNode = backNode = cursorNode = null;
totalSize = 0;
cursorPosition = -1;
}

//length(): Returns number of elements in this list
int length() {
}

//getIndex: Returns the index of the cursor element in this list, or
//returns -1 if the cursor element is undefined.
int getIndex() {
return cursorPosition;
}
//prepend(int data): Inserts new element before front element in this List.
void prepend(int data) {
Node node = new Node(data);
if (this.length() == 0) {
frontNode = backNode = node;
} else {
frontNode.previous = node;
node.next = frontNode;
frontNode = node;
}
totalSize++;
if (cursorPosition != -1) {
cursorPosition++;
}
}

//insertBefore(int data): Inserts new element before cursor element in this
// List. Pre: length()>0, getIndex()>=0
void insertBefore(int data) {
Node node = new Node(data);
if (this.length() > 0 && this.getIndex() >= 0) {
node.previous = cursorNode.previous;
node.next = cursorNode;
cursorNode.previous.next = node;
cursorNode.previous = node;
totalSize++;
cursorPosition++;
} else if (this.length() <= 0) {
throw new RuntimeException("Error: insertBefore called on empty list");
} else {
throw new RuntimeException("Error: insertBefore called without cursor set");
}
}
``````
-

There is no need to modify the list inside the `while` loop.

``````for (j = 1; j < inputArray.length; j++) {
i = j - 1;
key = inputArray[j];
while (i >= 0) {
if (key.compareTo(inputArray[i]) >= 0) {
break;
}
inputArray[i+1] = inputArray[i];
i--;
}
inputArray[i+1] = key;
A.moveTo(i+1);
A.insertBefore(j); // insert 'key' in right place
A.moveTo(j+1);
A.delete(); // remove old occurrence of 'key'
}
``````

I replaced `>` with `>=` to make the loop stop as soon as the key is greater than or equal to the current element. That way the key will be inserted after equal values rather than before.

I suggest you extend `insertBefore` to insert at the start when `cursorPosition == 0`. This is a logical extension which eliminates the special cases in the insertion sort algorithm.

-
Thanks.I made the modifications to insertBefore so that it will work on the edge cases. However, the algorithm as you have it results in a error on the last iteration because when A.moveTo(j) is called j is the same number as the length of List. – Ian Fiddes Jul 4 '13 at 2:25
@IanFiddes My suggestion is to make it legal for the cursorPosition to be equal to the length. – tom Jul 4 '13 at 2:32
This still doesn't work :( I cannot make it legal for cursorPosition to be equal to the length - cursorPosition is 1 based, length is 0 based. However, I did change it to append the value of j in the case where it is the length. – Ian Fiddes Jul 4 '13 at 17:52
But this doesn't work. After the 2nd iteration, values are lost because j is not equal to the item that was removed. – Ian Fiddes Jul 4 '13 at 17:52
@IanFiddes I edited my answer to avoid inserting at the end. Please post your implementation of `moveTo()` and `delete()` if it still doesn't work. – tom Jul 5 '13 at 3:06