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I know that I can use a Dictionary and retrieve an arbitrary element in O(1) time.

I know that I can get the next highest (or lowest) element in a SortedDictionary in O(1) time. But what if I wanted to remove the first value (based on TKey's IComparable) in the SortedDictionary?

Can I use the .First() method to retrieve the smallest key? And what is its complexity? Will it run in O(1), O(log n) or O(n) time?

Is the SortedDictionary the correct data structure for this?

Note: The use case is sort of a poor man's priority queue or ordered queue. No open-source is allowed for this (must be code-from-scratch, or already in the .NET 3.5 framework).

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Robert, in a sorted dictionary you need usually log2n to get min element, it's not O(1). Heaps offer O(1) access to min(or max). –  bestsss May 28 '11 at 17:16
@best: I didn't say min is O(1). Read the question again: The next element is O(1) –  Robert Harvey May 28 '11 at 23:25
next highest/lowest (in a subset), predecessor/successor of an element are also not O(1). –  bestsss May 29 '11 at 8:51
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6 Answers

up vote 6 down vote accepted

SortedList and SortedDictionary are implemented internally as binary search trees and could ideally give you O(log n) performance for a Min (requires walking the tree, but not enumerating the whole list). However, using LINQ to perform that Min will probably enumerate the entire list.

I would consider a Skip List as a better alternative data structure.

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Does .NET have a native skip list implementation? –  Robert Harvey May 25 '11 at 22:55
@Robert, sadly no - you would have to implement it yourself (or use an open source implementation, but you said that's not an option.) However, the basic algorithm isn't especially difficult to implement and the MSDN article I linked walks you through the core. –  hemp May 25 '11 at 22:59
LINQ would use GetEnumerator() to fetch the first element (O(log n)), not Min(). –  Marcelo Cantos May 25 '11 at 22:59
@Marcelo, whether .First() (aka: GetEnumerator) would return the minimum value depends on the sort order of the SortedList<T>. So it may or may not satisfy the requirement. The OP's question was a little fuzzy. –  hemp May 25 '11 at 23:04
Min requires enumerating the whole list because it can't know it's sorted. LINQ does have a .First() method. –  Random832 May 25 '11 at 23:04
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SortedDictionary.GetEnumerator is stated as having O(log n) time - so First() should follow suit.

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But requires that the list is sorted in the correct order. –  hemp May 25 '11 at 23:05
@hemp: Isn't that what the SortedDictionary does? –  Robert Harvey May 25 '11 at 23:17
@Robert: It sorts by using IComparable - how that IComparable is implemented determines the sort order. Since you own the data structure in this case, it would be fine. –  hemp May 26 '11 at 5:59
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If you have a SortedDictionary or SortedList, you can use .First() (or dict.Keys[0] for SortedList) Otherwise, you could do:


which would have overall O(N) time (as Min() must iterate the whole collection)

.First() will probably have O(1) time for a SortedList and O(log n) for SortedDictionary.

Insertion and Removal will be O(log N) time for SortedDictionary and may be up to O(N) for SortedList. Note that if you're using a dictionary to back your "priority queue" you can't have two items with the same priority.

I don't think either class has a special implementation for Last, so if you want the highest valued key, you should probably use a SortedList since you can do dict.Keys[dict.Count-1]. If you want only the highest (and not the lowest), you could use a Comparer to sort it in that order and use First.

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I think the goal would be to get O(log n) or better. There will be a lot of items in the collection, and they will always be retrieved smallest key first. –  Robert Harvey May 25 '11 at 22:52
Then you should use a SortedDictionary (or SortedList). Just keep your insertion and removal costs in mind too. –  Random832 May 25 '11 at 22:56
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Since you only mentioned getting values and not setting them, You could use a simple list, sort it in advance, then access any value, by order, in O(1).

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With an unsorted collection, getting the highest or lowest element is O(n) because any of the items could be the highest or lowest so you have to look at each. If you want to do this quickly (O(1)) you need a sorted data structure so you can infer the relative positions of values based on their location.

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Why don't you keep a separate sorted list of the keys so that you can always get the element with the smallest key just by doing dict[keyList[0]].

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