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I am trying to build an ordered linked list with out the possibility of finding duplicate data in the new ordered list. Say f_total have this values: f_total: 48 42 45 50 42 48 48 43 The new linked list should be look like this: 42 43 45 48 50

Code updated:

        typedef struct _sigma {
            int algo;
            int f;
            int c;
            node_p list;
            struct _sigma *next;
        } sigma, *sigma_p;

        sigma_p sigma_tmp = NULL;
        sigma_p sigma_new = NULL;
        sigma_p sigma_optimal = NULL;
        int f_total = 0;

        f_total = exectasks(m, nod_tmp, &c_max, &cmin); // f_total will be updated after each time exectasks function return.
        ...
        if(sigma_optimal == NULL)
        {
            sigma_optimal = (sigma *)malloc(sizeof(sigma));
            sigma_optimal->algo = 0;
            sigma_optimal->f = f_optimal;
            sigma_optimal->c = cmin;
            sigma_optimal->list = nod_tmp;
            sigma_optimal->next = NULL;
        }
        else
        {
            sigma_new = (sigma *)malloc(sizeof(sigma));
            sigma_new->algo = 0;
            sigma_new->f = f_optimal;
            sigma_new->c = cmin;
            sigma_new->list = nod_tmp;
            sigma_tmp = sigma_optimal;
            while(sigma_tmp != NULL && f_optimal > sigma_tmp->f)
            {
                sigma_prev = sigma_tmp;
                sigma_tmp = sigma_tmp->next;
            }  

            if(sigma_tmp != NULL)
            {
                if(sigma_tmp->f != f_optimal)
                {
                    if(sigma_tmp == sigma_optimal)
                    {
                        sigma_new->next = sigma_optimal;
                        sigma_optimal = sigma_new;
                    }
                    else if(sigma_tmp->next == NULL)
                    {
                        sigma_prev->next = sigma_new;
                        sigma_new->next = sigma_tmp;
                    }
                    else if(sigma_tmp == NULL)
                    {
                        sigma_tmp->next = sigma_new;
                        sigma_new->next = NULL;
                    }
                }
            }
        }

But here I have two problems:

  1. It does not order the list correctly.
  2. It does not remove all the duplication.
share|improve this question
    
What do you think is the problem? What have you tried so far? –  templatetypedef Jan 30 '13 at 1:42
2  
Sounds like just one problem... your algorithm. Where is the definition of f_total, and of your "sigma" structure? –  Mike Jan 30 '13 at 1:42
    
@templatetypedef I tried many ways, but all seems give incorrect result, this is the best I got so far. I am with it up 2 days to now. –  SIFE Jan 30 '13 at 2:03
    
nitpick: >= is short for > || ==. Scan the list for the insertion position, this should be your first while loop. Then insert. Write down your algorithm, step through it. –  Guy Sirton Jan 30 '13 at 5:30
    
Have you tried to walk through your code by hand thinking of every line how it will be executed and what will happen? - I'm just asking because all of us have to do the very same actually. –  junix Jan 30 '13 at 8:59

1 Answer 1

up vote 0 down vote accepted

Finally I fix it:

    f_total = exectasks(m, nod_tmp, &c_max, &cmin); // f_total will be updated after each time exectasks function return.
    ...
    if(sigma_optimal == NULL) // the start of the list
    {
        sigma_optimal = (sigma *)malloc(sizeof(sigma));
        sigma_optimal->algo = 0;
        sigma_optimal->f = f_optimal;
        sigma_optimal->c = cmin;
        sigma_optimal->list = nod_tmp;
        sigma_optimal->next = NULL;
    }
    else
    {
        sigma_new = (sigma *)malloc(sizeof(sigma));
        sigma_new->algo = 0;
        sigma_new->f = f_optimal;
        sigma_new->c = cmin;
        sigma_new->list = nod_tmp;
        sigma_tmp = sigma_optimal;
        while(sigma_tmp != NULL && f_optimal > sigma_tmp->f)
        {
            sigma_prev = sigma_tmp;
            sigma_tmp = sigma_tmp->next;
        }  

        if(f_optimal != sigma_tmp->f && sigma_tmp != NULL)
        {
            if(sigma_tmp == sigma_optimal) // we are in the head
            {
                sigma_new->next = sigma_tmp;
                sigma_optimal = sigma_tmp; // update the new head list
            }
            else // we are some where in the middle
            {
                sigma_prev->next = sigma_new;
                sigma_new->next = sigma_tmp;
            }
        }

        if(sigma_tmp == NULL) // we are in the end
        {
            sigma_prev->next = sigma_new;
            sigma_new->next = NULL;
        }
    }
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