If i found that a pointer(link) field in the linked list is corrupted, how i can resolve this problem?
I was asked this question in interview. I said no, its not possible to resolve it. Interviewer told its possible. Any ways are there?
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Well, assuming that it's a doubly linked list:
If it's the "next" pointer that got corrupted, one can begin at the tail and using the "previous" pointer, traverse the list towards the head while maintaining a reference to the last element that was traversed. When you find the element that has the bad pointer, you simply need to make that element's "next" pointer point to the last element that was traversed.
If a "previous" link is corrupted in a doubly linked list, the process can be reversed - begin at the head, traverse until the bad "previous" pointer is found and fix it using the reference to the last element that was traversed.
In developing my embedded job/s, I use forward-linked queues a lot. I keep a count as well as the head pointer. The queues have a check() method that runs round [count] links and calls the critical error handler if the resulting pointer is not the same as the head. It's not foolproof, but it works sufficiently well to catch double-pushes and other such common queue errors.
NOTE: In multithreaded apps, the queue must be locked up to check it safely.
In a doubly circular linked list, we can resolve the corrupted pointer, if any one of the pointer(previous or next pointer) is corrupted.
If next pointer is not proper, we can traverse the list reversely and then we can correct it, Or else if previous pointer is not proper, we can traverse the list forwardly to correct it.
Now we have to think how to identify a corrupted link(pointer) in a list. We use to allocate dynamic memory(
calloc) for each nodes separately. If we call
calloc frequently for small small memory may affects to performance of the system. Rather than this we can allocate a big junk of heap memory at initial stage and then we can implement our own memory allocation function for each node creation. And also use this only for list node creation to identify corrupted links of the list.
This increases the performance of the system and also it will help to indentify whether the link of a node is corrupted or not, by checking the limits of the initial memory allocated for the list.
Once we get a pointer to a node, we have to do the below checks first before accessing the data in that node.
check_limit(node); check_limit(node->next); check_limit(node->previous);
And also we can check whether the
node->previous is equal to
After this also there may be possibility of
node->next might be pointing to wrong address but inside the initial memory limit. In this case we can read
node->next->previous (this will not leads to crash, even if
next is pointing wrong address but inside the initial memory limit) and check whether it is equal to
node or not.
And also unused intial memory space should be
NULL setted always (using
By these ways we can find out the 99% of the corrupted pointers in a list.
In doubly circular linked list if corrupt pointer points one of the node's memory location then find the loop first using traverse and mark method. This will give location of the node that has corrupt pointer then treverse in reverse order then find out a node which has prev node location as the first step resulted node. Assign corrupt node's pointer next this node. Problem fixed In the vice versa scene reverse in Anticlockwise. The above solution takes o(N) space for matching the traversed node addresses.