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I'm asking for something that's a bit weird, but here is my requirement (which is all a bit computation intensive, which I couldn't find anywhere so far)..

I need a collection of <TKey, TValue> of about 30 items. But the collection is used in massively nested foreach loops that would iterate possibly almost up to a billion times, seriously. The operations on collection are trivial, something that would look like:

 Dictionary<Position, Value> _cells = new 

_cells.Add(Position.p1, v1);
_cells.Add(Position.p2, v2);

In short, nothing more than addition of about 30 items and clearing of the collection. Also the values will be read from somewhere else at some point. I need this reading/retrieval by the key. So I need something along the lines of a Dictionary. Now since I'm trying to squeeze out every ounce from the CPU, I'm looking for some micro-optimizations as well. For one, I do not require the collection to check if a duplicate already exists while adding (this typically makes dictionary slower when compared to a List<T> for addition). I know I wont be passing duplicates as keys.

Since Add method would do some checks, I tried this instead:

_cells[Position.p1] = v1; 
_cells[Position.p2] = v2;

But this is still about 200 ms seconds slower for about 10k iterations than a typical List<T> implementation like this:

List<KeyValuePair<Position, Value>> _cells = new 

_cells.Add(new KeyValuePair<Position, Value>(Position.p1, v1));
_cells.Add(new KeyValuePair<Position, Value>(Position.p2, v2));

Now that could scale to a noticeable time after full iteration. Note that in the above case I have read item from list by index (which was ok for testing purposes). The problem with a regular List<T> for us are many, the main reason being not being able to access an item by key.

My question in short are:

  1. Is there a custom collection class that would let access item by key, yet bypass the duplicate checking while adding? Any 3rd party open source collection would do.

  2. Or else please point me to a good starter as to how to implement my custom collection class from IDictionary<TKey, TValue> interface


I went by MiMo's suggestion and List was still faster. Perhaps it has got to do with overhead of creating the dictionary.

share|improve this question
Just curious....where you able to improve the performance of the dictionaries modifying the class? By how much..? – MiMo Dec 3 '12 at 16:02
Yes, it did improve, about 20ms or so, but it did not beat List still. There has to be something else wrong with the code. Even when I tested with 30 static instances of kvps without any collection classes, a List<Kvp> was still faster, though very marginally. I wonder why! – nawfal Dec 4 '12 at 12:43
Thanks Nawfal, appreciated – MiMo Dec 4 '12 at 15:20
If your collection is so short, you might want to consider NOT using a dictionary at all: use a fixed-size array (fastest add with no control at all) and whenever you want to look for a value, then parse the whole list. This costs O(n) instead of O(1), but n is only 30 – PPC Apr 19 '13 at 17:30
@PPC valid point! Thanks. – nawfal Apr 19 '13 at 18:15
up vote 2 down vote accepted

My suggestion would be to start with the source code of Dictionary<TKey, TValue> and change it to optimize for you specific situation.

You don't have to support removal of individual key/value pairs, this might help simplifying the code. There apppear to be also some check on the validity of keys etc. that you could get rid of.

share|improve this answer
Is it legal to copy their source code? No issues right? – nawfal Dec 2 '12 at 21:11
Mhh...interesting question. I'd think that taking that code as a base for your own class would be OK - but I am no lawyer. I'd say that if you are not competing with Microsoft products it is highly unlikely that anyone would ever complain. – MiMo Dec 2 '12 at 21:18

But this is still a few ms seconds slower for about ten iterations than a typical List implementation like this

A few milliseconds slower for ten iterations of adding just 30 values? I don't believe that. Adding just a few values should take microscopic amounts of time, unless your hashing/equality routines are very slow. (That can be a real problem. I've seen code improved massively by tweaking the key choice to be something that's hashed quickly.)

If it's really taking milliseconds longer, I'd urge you to check your diagnostics.

But it's not surprising that it's slower in general: it's doing more work. For a list, it just needs to check whether or not it needs to grow the buffer, then write to an array element, and increment the size. That's it. No hashing, no computation of the right bucket.

Is there a custom collection class that would let access item by key, yet bypass the duplicate checking while adding?

No. The very work you're trying to avoid is what makes it quick to access by key later.

When do you need to perform a lookup by key, however? Do you often use collections without ever looking up a key? How big is the collection by the time you perform a key lookup?

Perhaps you should build a list of key/value pairs, and only convert it into a dictionary when you've finished writing and are ready to start looking up.

share|improve this answer
The lookups are done right in the middle of the loops, that's like right after addition to collection. The collection is at most 30 items in size. Sure I will see to the hashcode, and also if I can process the variables without ever adding to a collection at all! :) – nawfal Dec 2 '12 at 21:01
Jon, hashcode did the trick to an extent. Though I was wrong to say dictionary was slower for 10 iterations, it was for 10k iterations that the difference was noticeable - about 200ms faster is List<T>. – nawfal Dec 3 '12 at 0:20
@nawfal: Right, that's slightly more believable, although 200ms still sounds like a heck of a long time to me. In a quick test I've just done on my netbook (so pretty underpowered) populating a Dictionary<int, int> with 10,000 entries only took 3-4ms. – Jon Skeet Dec 3 '12 at 6:48

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