The type definition of the list is in linkedList.h as usual.


 typedef struct snode {
        int value;  
        struct snode *next; 
 } snodeType;

 typedef struct hnode {int count;
        snodeType *first;
        snodeType *last; 
 } sList;

 sList* create_sList(void);
 int insert_element_s(sList *L, snodeType *p, int value);
 int delete_element_s(sList *L, snodeType *p); 
 sList* merge_lists(sList *L1, sList *L2);

 #endif /* LINKEDLIST_H */

Question is:

sList * create_sList(void) creates the list and returns it to the caller. It has to allocate memory for the header node, initialize the fields in the struct hnode.

sList* create_sList(void) {

    sList *list = NULL;
    list->first  = (sList*)malloc(sizeof(snodeType));
    list->last  = (sList*)malloc(sizeof(snodeType));

/*  2nd option
    sList *list = NULL;
    node = malloc(sizeof(snodeType));
    node->next= NULL;
    list->first = node;
    list->last = node;

    return list;

I need to just initiate this linked list, is there somebody who know how?

  • What do you mean by initiate the list? – Rishikesh Raje Sep 21 '16 at 11:26
  • 2
    sList* create_sList(void) { sList *list = malloc(sizeof(*list)); list->count = 0; list->last = list->first = NULL; return list; } – BLUEPIXY Sep 21 '16 at 11:41

That should just be:

sList * create_sList(void)
  sList *list = malloc(sizof *list);
  if(list != NULL)
    list->count = 0;
    list->first = list->last = NULL;
  return list;

This returns a list head with no elements, i.e. an empty list header.

  • @Garf365 Thanks, didn't see it due to the indent. Fixed. – unwind Sep 22 '16 at 7:59

To "initiate"(create) the linked list you should allocate the head pointer by doing

sList* create_sList(void) {
  sList *list = NULL;
  if ((list = malloc(sizeof(sList))) == NULL) // always check your mallocs  
    return (NULL);
  if ((list->first = malloc(sizeof(snodeType))) == NULL)
    return (NULL);
  bzero(list->first, sizeof(snodeType));
  list->last = list->first;
  return (list);

then use int insert_element_s(sList *L, snodeType *p, int value);, *p being either the last or the first element of list, *L being list and value being the value. :)

  • 1
    Why allocate memory for first node ? It's an empty list, so, list->first and list->last should be equal to NULL and list->count should be equal to zero – Garf365 Sep 21 '16 at 11:52
  • Didn't realise you wanted an empty list sorry :) – Clément Péau Sep 21 '16 at 12:34

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