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#include <iostream>
using namespace std;

// node defined
class node {
 public:
    int data;
    node *link;
    node(int d) {
        data = d;
        link = NULL;
    }
};

// printing the linked list
void print(node *head) {
    node *current = head;
    while (current != NULL) {
        cout << current->data << " ";
        current = current->link;
    }
    cout << endl;
}

// creating the linked list with 'n' nodes
node *createlist(int n) {
    node *head = NULL;
    node *t = NULL;
    for (int i = 0; i < n; i++) {
        node *temp = NULL;
        int num;
        cin >> num;
        temp = new node(num);
        if (head == NULL) {
            head = temp;
            t = temp;
            continue;
        }
        if (t->link == NULL)
            t->link = temp;
        t = temp;
    }
    return head;
}

// performing selection sort on the linked list in an iterative manner
void my_selection_sort_linked_list(node *&head) {
    node *min = head;  // throughout the algorithm 'min' is used to denote the
                       // node with min value out of all the nodes left for
                       // scanning while scanning if we find a node 'X' with
                       // value lesser than min, then we update the pointers in
                       // such a way that 'X' becomes the predecessor of 'min'
    node *current =
        min->link;  // 'current' refers to the current node we are scanning
    node *previous = min;  //'previous' refers to the node that is previous to
                           // the current node
    node *temp =
        NULL;  // 'temp' in this algo is used to point to the last node of the
               // sorted part of the linked list.
               // eg. If at any time instance the state of the linked list is
               // suppose 1->2->5->3->8->NULL then, we see that "1->2" is the
               // sorted part of the LL, and therefore temp will be pointing to
               // the last node of the sorted part,i.e,'2' We keep on arranging
               // the Linked list in such a way that after each iteration the
               // node with 'min' value is placed at its correct position. Eg.
               // Let suppose initially we have 5->4->1->3->2->NULL After 1st
               // iteration : 1->4->5->3->2->NULL and so on

    while (
        min->link !=
        NULL)  // so that all the nodes are scanned or until there exists a node
    {
        // pick the first node from the unsorted part and assume that it is the
        // minimum and then start scanning from the next node

        while (current != NULL)  // suppose you choose the min node to be X,
                                 // then scan starts from the (X+1)th node until
                                 // its NULL. current = (X+1)th node and min = X
        {
            if (current->data < min->data)  // if the current node is smaller
                                            // than the presumed node 'min'
            {
                if (temp == NULL)  // temp stays null for the first iteration,
                                   // therefore it symbolizes that we are
                                   // scanning for the first time
                {
                    if (previous ==
                        min)  // if the 'previous' is pointing to the 'min' node
                    {
                        // Update the pointers
                        head = current;  // update the head pointer with the
                                         // current node
                        min->link = current->link;
                        current->link = previous;
                        min = current;
                        current = previous->link;
                    } else  // if the 'previous' is not pointing to the 'min'
                            // node
                    {
                        // Update the pointers
                        head = current;  // update the head pointer with the
                                         // current node
                        previous->link = current->link;
                        current->link = min;
                        min = current;
                        current = previous->link;
                    }
                } else  // if 'temp' is not NULL, i.e., its not the 1st
                        // iteration
                {
                    temp->link = current;
                    previous->link = current->link;
                    current->link = min;
                    min = current;
                    current = previous->link;
                }
            } else  // if the current node is greater than min, just move the
                    // previous and the current pointer a step further
            {
                previous = previous->link;
                current = current->link;
            }
        }

        // update the pointers. Set 'temp' to the last node in the sorted part.
        // Make 'min' move a step further so that 'min' points to the 1st node
        // of the unsorted part start the iteration again
        temp = min;
        min = min->link;
        previous = min;
        current = min->link;
    }
}

// Test cases:

// enter the no. of nodes : 5
// 8 9 3 1 4
// original list is : 8 9 3 1 4
// sorted list is : 1 3 4 8 9

// enter the no. of nodes : 3
// -1 -2 -3
// original list is : -1 -2 -3
// sorted list is : -3 -2 -1

// enter the no. of nodes : 8
// 8 7 6 5 4 3 2 1
// original list is : 8 7 6 5 4 3 2 1
// sorted list is : 1 2 3 4 5 6 7 8

// enter the no. of nodes : 6
// 5 3 4 1 -2 -4
// original list is : 5 3 4 1 -2 -4
// sorted list is : -4 -2 1 3 4 5

int main() {
    node *head = NULL;
    int n;
    cout << "enter the no. of nodes : ";  // taking input from user about the
                                          // number of nodes in linked list
    cin >> n;
    if (n == 0)
        return 0;
    head = createlist(n);  // creating the list
    cout << "original list is : ";
    print(head);                          // printing the original linked list
    my_selection_sort_linked_list(head);  // applying selection sort
    cout << "sorted list is : ";
    print(head);  // printing the sorted linked list
    return 0;
}

Selectionsortlinkedlist

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