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I've found a quite good sparse matrix implementation for c# over

But as i work in 3d coordinate-system, i need a sparse-matrix implementation that i can use to map the 3d-coordinate system.

Details: I'm storing large amounts of primitive shapes data in memory like cubes. I do have large amounts of them (around 30 million) and i've lots of null (zero) entries around. Given that my each entry costs 1-bytes of entry, i'd like to implement a sparse-matrix so that i can fairly save memory space.

Note: Fast access to matrix cells is a fairly important factor for me, so i'd be trading speed over memory consumption.

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what's your use case? transformation matrices for 3D graphics? – Alnitak Mar 31 '11 at 12:07
nop, just added details in the question. – HuseyinUslu Mar 31 '11 at 13:15
right, so it's a sparse voxel matrix. Is 30M the total number of cells, or the number of filled cells? – Alnitak Mar 31 '11 at 13:24
Technically, a matrix is strictly a 2D thing, if I remember correctly. You want a sparse 3D array or perhaps a sparse tensor:… – JCooper Mar 31 '11 at 16:03
up vote 1 down vote accepted

A very simple solution which I just made is this:

public class Sparse3DMatrix<T>
    Dictionary<Tuple<int,int,int>, T> values = new Dictionary<Tuple<int, int, int>, T>();

    public T this[int x, int y, int z]
        get { return values[new Tuple<int, int, int>(x, y, z)]; }
        set { values[new Tuple<int, int, int>(x, y, z)] = value; }

    public bool ContainsKey(int x, int y, int z)
        return values.ContainsKey(new Tuple<int, int, int>(x, y, z));


var test = new Sparse3DMatrix<float>();
test[1, 1, 1] = 1f;
Console.WriteLine(test[1, 1, 1]);

It could be extended with methods like those his version have, and with checks for x, y, z values etc.

I'm sure someone have something to say about its performance. It will be a decent implementation unless you really need something it for high-performance. It depends on the hash-code implementation of Tuple and your specific usage. If we assume the hashes are good, we will have O(1) lookup time. If you know you will have a lot of elements, you could use new Dictionary<...>(initial capacity) to avoid unnecessary resizing when added items.

Unlike his, this only have a single Dictionary with all the items. His version have dictionaries of dictionaries. The benefit of his, is if you have to scan over an entire row, you can just iterate the second-level dictionary (this will not help you is you want to scan over columns) which is faster than individual lookup of the items. But having a single dictionary means smaller memory usage - especially when you have few items per row.

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The fact that you're working in a 3D coordinate system doesn't change whether or not you can use this data structure. A matrix for a 3D space can be contained using a sparse matrix the same as a 2D matrix; it's just the entries that change.

You'd use a sparse matrix for large matricies with lots of zero entries. This is typical in discrete representations of problems in physics that come from finite difference and finite element methods. They have bands of non-zero entries clustered around the diagonal; entries outside the diagonal band are usually zero. A sparse matrix won't store these; decompositions like LU and QR have to be written to know how to deal with the sparsity.

These matricies can describe problems in either 2D or 3D spaces.

I believe you're incorrect if you think you need another data structure.

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Sparse matrices are way to go for me because as you mentioned my matrices will be contatining lots of zero (empty) entries. – HuseyinUslu Mar 31 '11 at 13:16
But 2D or 3D is immaterial in that case. – duffymo Mar 31 '11 at 14:11

Why not use a KD-Tree or a similar data structure (such as an Octtree)? There are great c++ implementations, for instance: FLANN

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