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Hello I stumbled following question You given unsorted doubly linked list.You should find and delete duplicates from Doubly linked list.

What is the best way to do it with minimum algorithmic complexity?

Thank you.

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Related question :… – jweyrich May 4 '11 at 18:40
Releated question :… – Robᵩ May 4 '11 at 19:11
up vote 7 down vote accepted

If the space is abundance and you have to really optimize this with time, perhaps you can use a Hashset (or equivalent in C++). You read each element and push it to the hashset. If the hashset reports a duplicate, it means that there is a duplicate. You simply would delete that node.

The complexity is O(n)

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The equivalent in C++ is the set<> container: – Baltasarq May 4 '11 at 18:49
@Baltasarq: Thanks for the link. Learnt something today! – bragboy May 4 '11 at 19:00
I think it is only O(n) with a perfect has function. Otherwise, you need to store colliding values on a list, increasing the complexity. – Robᵩ May 4 '11 at 19:15
@Rob Even with collisions a hash function is still effectively constant time in the number of elements in the hash (unless your has is like 95% full in which case you need a bigger table), it's just the C may be bigger. – Mark B May 4 '11 at 19:28
@Bragboy, @Mark, I was unfamiliar with Java Hashset, so came to the wrong conclusion about its performance. I stand by my claim that a hashed bucket list with a constant-size hash table has O(n) performance for find, insert, etc. But a Hashset has a dynamically-resized hash table, which is clearly O(1). – Robᵩ May 4 '11 at 19:49

Think of it as two singly linked lists instead of one doubly linked list, with one set of links going first to last and another set going last to first. You can sort the second list with a merge sort, which will be O(n log n). Now traverse the list using the first link. For each node, check if (node.back)->key==node.key and if so remove it from the list. Restore the back pointer during this traversal so that the list is properly doubly linked again.

This isn't necessarily the fastest method, but it doesn't use any extra space.

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Assuming that the potential employer believes in the C++ library:

// untested O(n*log(n))
temlate <class T>
void DeDup(std::list<T>& l) {
    std::set<T> s(l.begin(), l.end());
    std::list<T>(s.begin(), s.end()).swap(l);
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With minimum complexity? Simply traverse the list up to X times (where X is the number of items), starting at the head and then delete (and reassign pointers) down the list. O(n log n) (I believe) time at worse case, and really easy to code.

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X times X number of items makes it an O(n^2) worst case. – Ferruccio May 4 '11 at 18:41
This couldn't be a solution that has minimum complexity. Using a Hashset as in one of the other answers would definitely reduce the complexity. – Victor Zamanian May 4 '11 at 18:46
That's minimal coding complexity, not minimal algorithmic complexity which I'm sure is what the OP is after. – Mark B May 4 '11 at 18:57
Depending on your specific requirements, this isn't a bad solution. Its stable, requires no additional memory, and is trivial to implement. Given the original wording of the question, if it weren't for the incorrect complexity guess, I'd say this a reasonable answer. – Dennis Zickefoose May 4 '11 at 20:52

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