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I have a container that holds a lot (millions) of objects and must maintain a validated state for each item, eg:

class MyContainer<T>
    bool IsValidated(T t);

Whether an item is validated is entirely a concept of the container. Items have no such concept. So how to implement the Validated state of items in this situation? I'll explain the problem with two solutions I thought of:

Solution 1) Add a Validated property to the item itself, by forcing items added to the collection to inherit from a base class:

class MyContainer<T> where T : BaseItem
    bool IsValidated(T t)
        return t.IsValidated;

class BaseItem
    bool IsValidated;

But this seems wrong. Whether an item is validated or not is a concern of the container. The item shouldn't have any concept of what "validated" means. But on the other-hand this is the only solution I can think of that given an Item, allows its validation state to be looked up in O(1).

Solution 2) Maintain a dictionary in the container to associate Items with validation state:

class MyContainer<T>
    Dictionary<T, bool> isValidated;

    bool IsValidated(T t)
        return isValidated[t];

This solves the "wrongness" of the first solution. It removes all knowledge of validation from the Item and also doesn't require items to inherit a base class. But on the bad side the lookup to determine an Item's validation state is now O(log n).

What I cannot get over is how the worst solution in terms of design (#1) is better in terms of lookup performance. Nothing I can think of except the bad design of solution #1 can produce O(1) lookup.

Is there a well designed solution for O(1) or should I just settle on O(log n) lookup?

share|improve this question
Couldn't you have isValidated as a property of the container, and then update it as new items are added/removed? – KingCronus May 17 '13 at 14:00
the container must maintain a separate IsValidated state for each item – Weyland Yutani May 17 '13 at 14:01
Well, actually Dictionary lookup is asymptotically O(1) ... even if is surely slower than the first case. However, I hardly think this could be the bottleneck... – digEmAll May 17 '13 at 14:01
Dictionary lookup of O(1)?? I thought it was O(log n) am I wrong? – Weyland Yutani May 17 '13 at 14:02
It's very close to O(1) – Dave Bish May 17 '13 at 14:04
up vote 1 down vote accepted

As Dave wrote, the Dictionary's complexity is close to O(1)

Retrieving a value by using its key is very fast, close to O(1), because the Dictionary class is implemented as a hash table.

share|improve this answer
I’m not sure what “close to O(1)” means. Shame on MSDN for employing such imprecise and misleading language. – Konrad Rudolph May 17 '13 at 14:37
@KonradRudolph, I slightly disagree, no one can guarantee true O(1) in a multithreaded environment anyway so it's always almost O(1). – vc 74 May 17 '13 at 15:36
That’s not how O(1) works – at least usually it denotes performance on an idealised processor (consequently in a single thread). Furthermore, there simply are conventions to follow if you want to be understood. MSDN simply ignores these conventions here. And saying “it’s always almost O(1)” is a useless statement, don’t you agree? If it’s always that, then why talk about it? To be exact: Amortised hash table retrieval is either exactly O(1) or it’s O(n)/a, depending on the load factor. It’s never “close to O(1)”. – Konrad Rudolph May 17 '13 at 16:06
I think it has to be constant in terms of cycles which is independent from the technical architecture. I agree 'almost' here doesn't make the answer very professional... – vc 74 May 17 '13 at 18:01

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