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.Clear(); _cells.Add(Position.p1, v1); _cells.Add(Position.p2, v2); //etc
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.
Add method would do some checks, I tried this instead:
_cells[Position.p1] = v1; _cells[Position.p2] = v2; //etc
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)); //etc
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:
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.
Or else please point me to a good starter as to how to implement my custom collection class from
I went by MiMo's suggestion and List was still faster. Perhaps it has got to do with overhead of creating the dictionary.