Reversing a singly linked list when a block size is given

There is a singly connected linked list and a block size is given.For eg if my linked list is `1->2->3->4->5->6->7->8-NULL` and my block size is `4` then reverse the first `4` elements and then the second 4 elements.The output of the problem should be `4->3->2->1->8->7->6->5-NULL`

I was thinking of dividing the linked list into segments of size `4` and then reversing it. But that way I am forced to use a lot of extra nodes which is not desired at all. The space complexity should be kept to a minimum.

It will be highly appreciable if someone can come with a better solution where the usage of extra nodes would be kept to a minimum.

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3 Answers

I tried this...seems to work fine...

``````node* reverse(node* head) // function to reverse a list
{
node* new_head = NULL;
while(head != NULL)
{
node* next = head->next;
head->next = new_head;
new_head = head;
head = next;
}
return new_head;
}

node* reverse_by_block(node* head, int block)
{
if(head == NULL)
return head;

node* tmp = head;
node* new_head = head;
node* new_tail = NULL;

int count = block;
while(tmp != NULL && count--)
{
new_tail = tmp;
tmp = tmp->next;
}

new_tail->next = NULL;
new_tail = new_head;
new_head = reverse(new_head);
new_tail->next = reverse_by_block(tmp,block);

return new_head;
}
``````
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Got the idea.your prg is using 5 extra nodes,need to work on that. – Poulami Aug 9 '11 at 3:40
nodes are just pointers...point is there is no xtra memory used. – joshi Aug 9 '11 at 6:54
-thanx it was of help!! – Poulami Aug 9 '11 at 11:25

You can advance swapping the current element with the next 3 times: 1234, 2134, 2314, 2341. Then do it twice to get 3421. Then once to get 4321. Then advance 4 steps and repeat the process with the next block.

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I have to reverse the nodes not just the data elements. – Poulami Aug 8 '11 at 13:28
Yes. To swap A and B, with P being the node before A (you kept track of this while scanning), do P.next=B, A.next=B.next, B.next=A. – LaC Aug 8 '11 at 14:36

This can be done in linear-time, with constant space. Here is a brief description:

1. Split the linked list into two parts by block-size

``````
int split(node* head, node** listA, node** listB size_t block_size)
{
node* cur = head;

while(block_size && cur)
{
cur = cur->next;
--block_size;
}
if(!cur) { /* error : invalid block size */ return -1; }
*listA = head;
*listB = cur->next;
cur->next = NULL; /* terminate list A */
return 0;
}
``````
2. Reverse the two sub-parts, (use a non-recursive linear time, constant space function)

``````
reverse(listA);
reverse(listB);
``````
3. Link them to get the desired linked list.

``````
cur = *listA;
/* goto last but one element of listA */
while(cur->next) cur = cur->next;
cur->next = *listB;
``````
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