1. Shown below is the code for the insertion sort consisting of two recursive me
ID: 3743164 • Letter: 1
Question
1. Shown below is the code for the insertion sort consisting of two recursive methods that replace the two nested loops that would be used in its iterative counterpart:
void insertionSort(int array[])
{
insert(array, 1);
}
void insert(int[] array, int i)
{
if (i < array.length)
{
int value = array[i];
int j = shift(array, value, i);
array[j] = value;
insert(array, i + 1);
}
}
int shift(int[] array, int value, int i)
{
int insert = i;
if (i > 0 && array[i - 1] > value)
{
array[i] = array[i - 1];
insert = shift(array, value, i - 1);
}
return insert;
}
Draw the recursion tree for insertionSort when it is called for an array of length 5 with data that represents the worst case. Show the activations of insertionSort, insert and shift in the tree. Explain how the recursion tree would be different in the best case.
2. Refer back to the recursion tree you provided in the previous problem. Determine a formula that counts the numbers of nodes in that tree. What is Big-Q for execution time? Determine a formula that expresses the height of the tree. What is the Big-Q for memory?
Explanation / Answer
===============
So the nodes in the tree will be equal to the number of elements in the array. In each step of recursion, there is only one branch next.. hence the number of nodes is equal to size of array.
Bug O complexity: O(n)
Height: n
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