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I'm trying to create and maintain a sorted link list. Every new element should be inserted in a way that the list remains sorted. I have been able to code it but am not too happy with my code.

Basically there are 4 conditions that need to be satisfied according to me and in my attempt to achieve all of them i think i have made the code more complicated that it should be.

Just want to know if anyone has coded it more efficiently and if you can tell me how to improve the insert function here. This is my working code below and the conditions in comments. For keeping it small I have not posted the functions to remove elements, destroy list etc.

#include <iostream>

    using namespace std;

    struct node{
        int _val;
        node* _next;
    };

    void printList(node **s){

        node *t = *s;
        while(t){
            cout << t->_val << endl;
            t = t->_next;
        }
    }

    void insertSortElement(node** s, int val){

        node* t = *s;
        if(t){
            if(t->_next == NULL || (t->_val > val)){
                node* p = new node();
                p->_val = val;
                if(t->_val > val){
                    //3. More than 1 element in the list but 1st element > val
                    p->_next = t;
                    *s = p;
                }
                else{
                    //2. Only 1 element in the list and < val
                    t->_next = p;
                }
            }
            else{
                //4. More than 1 element and 1st < val
                node* prev = 0;
                while(t){
                    if(t->_val > val)
                        break;
                    prev = t;
                    t = t->_next;
                }
                node* p = new node();
                p->_val = val;
                p->_next = t;
                prev->_next = p;
            }
        }
        else{

            //1. no element in the list
            node* p = new node();
            p->_val = val;
            p->_next = NULL;
            *s = p;
        }
    } 

    int main(){
        struct node* s = 0 ;

        insertSortElement(&s,5);
        insertSortElement(&s,6);
        insertSortElement(&s,4);
        insertSortElement(&s,2);
        insertSortElement(&s,8);
        insertSortElement(&s,1);
        printList(&s);
    }

EDIT:

Found another implementation, much simpler than mine and handles all cases

void insertSorted(node**s , int val){
        node* current = *s;

                if(current == NULL || current->_val >= val){
                        node* p = new node();
                        p->_val = val;
                        p->_next = current;
                        *s = p;
                }
                else{

                        while(current->_next != NULL || current->_next->_val < val)
                                current = current->_next;

                        node*  p = new node();
                        p->_val = val;
                        p->_next = current->_next;
                        current->_next = p;
                }
}
share|improve this question

3 Answers 3

A faster approach will be using the binary search to find the right place to insert. It is called "skip list".

Also you can use santinels to avoid checking special cases for first and last elements.

share|improve this answer
    
Using binary search on a list does not make it a skip list... –  Eugen Constantin Dinca Jul 23 '10 at 1:28
    
    
You can't use binary search on a collection without random-access iterators (or at least some iterator with a flexible stride). You need a skip list, or something like it, to have such an iterator. –  Ben Voigt Jul 23 '10 at 3:22
    
To find the place where to insert the element is somewhat like binary search approach. But, you need to have a different datastructure other than tuco is having. It is not as simple as struct node in the question. –  Jagannath Jul 23 '10 at 3:35
    
I havn't covered skip lists yet but will look it up. –  tuco Jul 25 '10 at 23:59

I think you should write a method insertElement and then rewrite insertSortedElement as "search for the position to insert and then just call insertElement there" - I think this would clean up the code and make it much more logical and readable.

This way, you can code more modular. All weird edge cases can be handled by insertElement and you can optimize the insertion and position search seperately which will lead to much less confusion.

Some pseudo-code:

insertElement(node old_node, value val)
  allocate memory for new node new_node
  new_node.val = val
  new_node.next = old_node
  new_node.prev = old_node.prev

insertSortedElement(value val)
  actnode = first node
  while actnode.next != NULL
    if (actnode.val >= val)
      insertElement(actnode, val)
      break;
    actnode = actnode.next

Should be that simple, hope I didn't forget anything...

share|improve this answer
    
Sorry for the rather delayed reply. Yes this looks much neater I havn't tested it for all conditions yet. I found one more implementation but am not sure how to share more code here. I guess I'll edit my code and post the code too. –  tuco Jul 25 '10 at 23:58

Err... why? Isn't this what std::multiset is for?

#include <set> //for std::multiset
#include <iterator> //for std::ostream_iterator
#include <algorithm> //for std::copy
#include <iostream> //for std::cout

int main()
{
    //Put things in sorted collection.
    std::multiset<int> collection;
    collection.insert(5);
    collection.insert(6);
    collection.insert(4);
    collection.insert(2);
    collection.insert(8);
    collection.insert(1);

    //Print them to show sort.
    std::copy(collection.begin(), collection.end(), std::ostream_iterator(std::cout, "\n"));
}
share|improve this answer
1  
Yes but this is a learning exercise on understanding linked list operations, pointers etc. I'm sure you must have started in the same way. –  tuco Jul 26 '10 at 0:06
    
@tuco: Perhaps; but linked-list is an entirely overused data structure. Almost all of the time you are better off using something else. A contiguous array will usually perform better for basic operations, and when you need additional constraints like sorting, binary search trees or red black trees are better choices. As for me "starting the same way", I've never written a container in a language where a container was already provided (though I did have to write a linked list implementation once in C). Writing an implementation of linked list just isn't, generally speaking, useful. –  Billy ONeal Jul 26 '10 at 3:10
    
You may be right but I'm referring to 2 books on data structures and algorithms and they both have linked lists as their first chapter. –  tuco Jul 26 '10 at 19:10

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