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I've been battling with this problem for a few hours.

I have a doubly linked list implementation that does not require dynamic memory allocation.

Here's the insertion method. It inserts elem right before before. The struct list has two members, struct list_elem *next and struct list_elem *prev. list_elem is a struct that holds some data. Please note that this list implementation is correct. The problem is with the way I am using it. Please read on.

void list_insert(struct list_elem *before, struct list_elem *elem) {
    /* "before" has to be an interior node or tail node to be able to insert "before" it */
    assert (is_interior(before) || is_tail(before));
    assert (elem != NULL);
    elem->prev = before->prev;
    elem->next = before;
    before->prev->next = elem;
    before-> = elem;

The way this list is initialized is as follows:

void list_init(struct list *list) {
    assert(list != NULL);
    list->head.prev = NULL;
    list-> = &list->tail;
    list->tail.prev = &list->head;
    list-> = NULL;

My main class does the following:

struct list some_list;
static struct list_elem head;
some_list.head = head;
static struct list_elem tail;
some_list.tail = tail.

This basically creates two static list_elem structs, head and tail. And passes it into the initialization function which will wire them up together.

Now to create an element, I do the following - here's what I am doing wrong

struct list_elem element_struct;
/* Initialize element_struct members here */
struct list_elem *data = &element_struct;
list_insert( list_begin(some_list), data);

Now this works to insert one item. Since some_list.head will point to data which will point to some_list.tail. My problem is that I do this in a loop. So, as any list does, it will enter multiple data in there. I either get a segfault or some other error saying my element is not an interior or tail node (due to assert) since in each loop iteration, the data struct, element_struct will be reinitialized. (list_elem holds pointers to each other).

So my question is, how would I preserve the nodes that have been inserted? The list is not supposed to use any dynamic allocation itself. In that case, would I dynamically allocate my list_elem structs, and pass a dynamically allocated element into the list?

If so, how can I dynamically allocate a struct?

share|improve this question
Each list_elem wants its own memory; yet, as you have observed, your code reserves memory for only one list_elem. You must reserve memory for several list_elems. Whether you reserve this memory on the stack or on the heap is up to you. If on the stack, then you should probably reserve an array of list_elems, and pass a different one of these as elem to list_insert() each time you call list_insert(). Of curiosity, why will you not dynamically allocate memory? Is yours an embedded application with no memory manager available? – thb Mar 25 '12 at 21:49
or is this just the constraint in a homework? – Jens Gustedt Mar 25 '12 at 21:53
I am working on a project. No constraints - I can do whatever. I was given this list to use (I definitely do not want to waste my time writing my own list). Regarding dynamic allocation, I can dynamically allocate data on my own. Its just that the list does not. After research, I just realized that I have to dynamically allocate the data. I have one problem, however. This list takes list_elem as nodes. To make a list of any struct, I just put list_elem as a member of that struct. I have the struct job of which list_elem is a member of, I am now having problems freeing list_elem – darksky Mar 25 '12 at 21:58
I tried: free(&j->elem) then free(j). The program segfaults at free(&j->elem). Why is that? struct job` has list_elem elem as a member and j is a pointer that points to a struct job. – darksky Mar 25 '12 at 22:00
@Nayefc: Fair enough. It seems that you have answered your own question. You are right: dynamic allocation is the normal way to do what you suggest. If you are still having problems freeing a list_elem, you can post that code here when you're ready. – thb Mar 25 '12 at 22:01

1 Answer 1

up vote 1 down vote accepted

If you need to dynamically-allocate a struct instance, it's as simple as MyStruct *p = malloc(sizeof(*p));, and then an associated free(p); at some point.

share|improve this answer
Yep. I got that. However, I have a struct within a struct, so: struct job { ...members...; struct list_elem elem}; Now I malloced both job and list_elem. To free job, I just call free on its pointers. But calling a free on job->elem segfaults. Do I need to malloc/free the embedded struct? If so, how do I do that? – darksky Mar 25 '12 at 22:02
Is one job to own one list_elem, or to own an entire list of list_elems? – thb Mar 25 '12 at 22:06
@Nayefc: If the "inner" struct is a pointer member, then yes, you'll need to mallocate it. If it's a "normal" member, then no, it's already mallocated as part of its parent. – Oliver Charlesworth Mar 25 '12 at 22:07
one job to one list_elem. So: Struct job contains a struct list_elem. I am trying to do something like: j->elem = (struct list_elem *) malloc(sizeof(struct list_elem)) but I get an error saying incompatible types when assigning struct list_elem from struct list_elem*. Is it because struct list_elem has to be a pointer in struct job and not an actual struct? – darksky Mar 25 '12 at 22:08
Great! So would it differ if it a pointer member or a normal member? Or is it just safer to make it a pointer and just free it? – darksky Mar 25 '12 at 22:09

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