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My initial problem is that I need to implement a very fast, sparse array in C#. Original idea was to use a normal Dictionary<uint, TValue> and wrap it in my own class to only expose the TValue type parameter. Turns out this is pretty slow.

So my next idea was to map each integer in the needed range (UInt32.MinValue to UInt32.MaxValue) to a bucket, of some size and use that. So I'm looking for a good way to map an unsigned integer X to a bucket Y, for example:

Mapping the numbers 0-1023 to 8 different buckets holding 128 numbers each, 0-127, 128-255.

But if someone has a better way of implementing a fast sparse array in C#, that would be most appreciated also.

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2 Answers 2

I, too, noticed that Dictionary<K,V> is slow when the key is an integer. I don’t know exactly why this is the case, but I wrote a faster hash-table implementation for uint and ulong keys:

Caveats/downsides:

  • The 64-bit one (key is ulong) is generic, but the other one (key is uint) assumes int values because that’s all I needed at the time; I’m sure you can make this generic easily.

  • Currently the capacity determines the size of the hashtable forever (i.e. it doesn’t grow).

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Is it really more efficient to have element be a class instead of a struct? –  Gabe Sep 26 '10 at 15:08
    
@Gabe: I don’t know, I didn’t test it. I suspect it makes little or no difference though. If you want to run some benchmarks, please feel free! –  Timwi Sep 26 '10 at 15:13
    
Are we talking about a lot slower than an array? Ie. So for relatively small, dense arrays, I would be better off with a boolean array to indicate set/not set? –  winwaed Nov 17 '10 at 2:50
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As of 20110524 I have benchmarked Dictionary<K,V> and Efficient64bitHashtable<T> against each other using ulong keys (100 random values between 0 and 10_000) and Action(()=>{}) values with Jon Skeet's BenchmarkHelper framework for 10_000 iterations each and found that Dictionary<K,V> is about 223% faster. (Both structures were 3000%+ faster than a for/for loop structure.) Increasing to 1_000 keys and 100_000 iterations resulted in Dictionary<K,V> being about 228% faster. I am replacing production code that uses the iterative approach for ~7MM nightly trans. so this isn't merely an exercise. –  cfeduke May 24 '11 at 15:24
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I left the capacity at the default of 214373, and in my iteration test (using List) and Dictionary<K,V> I specified their capacity parameters as 214373 as well. I am theorizing that the internals of Dictionary<K,V> have changed which is why I took the time to comment. I am going to re-benchmark with the Efficient32bitHashTable just to be sure. –  cfeduke May 25 '11 at 13:57

There are a 101 different ways to implement sparse arrays depending on factors like:

  • How many items will be in the array
  • How are the items clustered together
  • Space / speed trade of
  • etc

Most textbooks have a section on sparse array, just doing a Google comes up with lots of hits. You will then have to translate the code into C#, or just use the code someone else has written, I have found two without much effort (I don't know how good these are)

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