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C SHARP - SELECTION SORT CODE




Example :



public class Sort {

	  void selectionSort(int[] arr) {
	 
        int n = arr.Length; 
        int currentMaximum;
        int temp;
        
        for (int i=0; i < n; i++) {
        
        	currentMaximum = 0;
  
            // Considering the first element to be the maximum element of the unsorted array.
            // And, (n-i) is to ignore the comparisons that is already done.
            
            for(int j = 1; j < n-i; j++) {
                
                if (arr[j] > arr[currentMaximum]) {
                
                	currentMaximum = j;
                }
            }
            
            // Swap the Current Maximum element with the last element.
            
            temp = arr[n-i-1];
            arr[n-i-1] = arr[currentMaximum];
            arr[currentMaximum] = temp;
  
         } 
      }


  public static void Main(string[] args) {         
    int[] arr = {7, 4, 8, 1, 6}; 
  
    Sort sort = new Sort();         
    sort.selectionSort(arr); 
    
    for(int i=0; i < arr.Length; i++) {
    
    	System.Console.Write(arr[i]+", ");
    } 
  }
}


Output :



  1, 4, 6, 7, 8,

We are just concerned about the void selectionSort(int[] arr) method, where the sorting logic is defined.


We have the array


int[] arr = {7, 4, 8, 1, 6};

Which we have passed to the selectionSort(..) method.


In the bubbleSort(..) method, we have taken the count of the elements of the array.


int n = arr.Length;

Also note that,


int currentMaximum;

currentMaximum is going to hold the position of the Current Maximum value. I will clear it below.


Now, let us corelate this code with the explanation of Selection Sort.


Let us take the same values defined above.

java_Collections

And take the chunk of code and explain it.


	for (int i=0; i < n; i++) {

		currentMaximum = 0;

		// Considering the first element to be the maximum element of the unsorted array.
		// And, (n-i) is to ignore the comparisons that is already done.

		for(int j = 1; j < n-i; j++) {

			if (arr[j] > arr[currentMaximum]) {

				currentMaximum = j;
			}
		}

		// Swap the Current Maximum element with the last element.

		temp = arr[n-i-1];
		arr[n-i-1] = arr[currentMaximum];
		arr[currentMaximum] = temp;

	}

So, the outer loop, i.e.


for (int i=0; i < n; i++)

Determines the Passes. If you see the above explanation you can find the first pass,


1st Pass (i.e. When i=0)


In the next step we have initialized the currentMaximum to 0.


currentMaximum = 0;

Because no matter what we have to initialize the currentMaximum to 0 at the end of every pass.


Then comes the the inner loop, i.e.


for(int j = 1; j < n-i; j++)

Which determines the iterations.

java_Collections

Next, comes the comparison part where we compare 2nd element with the currentMaximum. Now, since currentMaximum is at the 0th position of the Array. We compare if 4 is greater than 7 or not.


if (arr[j] > arr[currentMaximum]) {

	currentMaximum = j;
}

Let, us also look at the 2nd iteration.

java_Collections

In the above diagram we can see that j is 2. And if we refer to the code,


if (arr[j] > arr[currentMaximum]) {

	currentMaximum = j;
}

a[j] is 8 and arr[currentMaximum] is 7. And 8 is greater than 7. So, we initialize currentMaximum with 2.

java_Collections

And in the next iteration j is increased by 1 and refers to the 3 in array,

java_Collections

In the next iteration j is increased by 1. And when we reach at the end of the pass(i.e. When j becomes 4),

java_Collections

We swap the currentMaximum with the last element.


temp = arr[n-i-1]; // (n-i-1) is (5-0-1) i.e. 4
arr[n-i-1] = arr[currentMaximum]; // currentMaximum is 2
arr[currentMaximum] = temp;

So, as mentioned we swap arr[n-i-1] 1.e. arr[2] with arr[currentMaximum] i.e. arr[4]

java_Collections

And continue in the same pattern.


Note : (n-i) in the conditional part of inner loop ignores the last element from each passes.

Efficiency / Running time of Selection Sort


If we consider the Selection Sort Algorithm, there are two loops. Firstly, there is the for loop. And inside the for loop there is also a for loop.


The for loop executes n times(Assuming the array contains n elements).


Now, for each iteration of for loop, the nested for loop also executes approximately n times.


Which means for 1st iteration of for loop,


the nested for loop also runs n time.

Similarly, for 2nd iteration of for loop,


inner for loop runs (n-1) times.

Similarly, for nth iteration of for loop,


inner for loop runs 1 time.

So, the running time is close to n*n or n^2.


So, in worst case the running time is O(n^2).


Note : Worst case is the scenario where the array elements are all sorted in descending order. i.e. 8, 7, 6, 4, 1.