# How to compare linked list nodes?

GLib library done like this to compare two singly linked list nodes:

`````` typedef struct _GSList {
void *data;
} GSList;

int g_sListPosition(GSList *list, GSList *llink) {
int cnt = 0;
while(list) {
if(list == llink)  // Note here
return cnt;
cnt++;
}

return -1;
}
``````

But when I compare the nodes like this. It return false:

``````int main(void) {
GSList *list = NULL, *list2 = NULL;
list2 = g_sListAppend(list2, "def");
list = g_sListAppend(list, "abc");
list = g_sListAppend(list, "def");
list = g_sListAppend(list, "ghi");
printf("%d", g_sListPosition(list, list2));   // Return -1 ?
}
``````

So, what's compare here (in the DOC, it's written gets the position of the given element in the GSList), a node or the data contained in the list ?

Edit: Thanks to all the given, my mistake I was actually doing it in wrong way. I have to compare same instance of the list.

-

Because `list` and `llink` are node address and we can't have two different nodes with same address, its very simple technique to find where `llink` start within in `list`(first).

Suppose `list` passes to function is like:

``````  //     0     1    2   3    4
list---->[]-->[]-->[]-->[]-->[]---null
23   42   18  102  324

``````

if `llink` value is `18`, then function returns `2` because `llink` is third node in `list`.

and if `llink` not found it returns `-1`.

(like array index starts with `0` function count numbers node in list from `0`)

As you commented I am commenting code:

``````    int cnt = 0;  // initial value of node_count is 0
while(list) { // search while list not NULL (till end)
return cnt;   // return node number
cnt++;   // else it may be next node
}

// negative number can't be a position
``````

comment:

I mean, how to test it If it really gives positive value

`````` g_sListPosition(list, list->link->link->link);
//                            0      1    2
``````

it will return `2`.

but note you list should be consists of `3` nodes.

-
So, why it returns -1, when they are comparing two links – Ashish Rawat Aug 2 '13 at 5:49
Can you show me an example when it return positive value? – Ashish Rawat Aug 2 '13 at 5:52
@ashish2expert the example I explained is understood to you? do you need example for -1 ? – Grijesh Chauhan Aug 2 '13 at 5:53
No, as I tried above, but it doesn't return positive value. I mean to give the example like one above. What you give it I know, but how do I test it? – Ashish Rawat Aug 2 '13 at 5:55

The list with head `list2`

``````+--------+
|  def   |--->X
+--------+
arr1
``````

When the function allocates the node it will allocate a free memory location with the size of the node and then assign the string in the node's data part (where it has to assign the string).

The list with head `list`

``````+--------+    +--------+    +--------+
|   abc  |--->|   def  |--->|  ghi   |--->X
+--------+    +--------+    +--------+
``````

Here everytime you append a string to the linked list, a new node is allocated and the string is copied in the data part. Note that, everytime a new node is allocated the address of the node is different.

In the case above the first list with the data "def" has address `addr1` and the second list has the node with data "def" has the address `addr3` . So if you try to compare these two nodes with the `==` operator, naturally the comparison result will be false because the equality will compare the address of the nodes, which are different and thus return false.

If you want to particularly match a data in the node you need to compare it specifically. Which is, visit each node in `list` and compare the data part with the other node (`list1`).

On the other hand, if you to have exacted the node address inside a specific linked list, then you can use the address to compare. For example if you traverse the list till the end and get the address of the last node with "ghi" in it having address `addr4`, then you can use this address to compare that specific node inside the list later, provided that this node has not been freed and re-created with same data. In such case as you can see clearly even the data inside this node changes the address will remain the same.

-

I found that, we have to actually give the same instance of the list. Here's an example below:

``````int main(void) {
RSList *list = NULL;
list = r_sListAppend(list, "abc");
list = r_sListAppend(list, "def");
list = r_sListAppend(list, "ghi");

RSList *list2 = list;
int i = 2;
while(i--) {