# How do I find hash value of a 3D vector?

I am trying to perform broad-phase collision detection with a fixed-grid size approach. Thus, for each entity's position: (x,y,z) (each of type float), I need to find which cell does the entity lie in. I then intend to store all the cells in a hash-table and then iterate through to report (if any) collisions.

So, here is what I am doing: Grid-cell's position: (int type) (Gx, Gy, Gz) => (x / M, y / M, z / M) where M is the size of the grid.

Once, I have a cell, I'd like to add it to a hash-table with its key being a unique hash based on (Gx, Gy, Gz) and the value being the cell itself. Now, I cannot think of a good hash function and I need some help with that.

Can someone please suggest me a good hash function?

Thanks

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If someone is still interested in this, I figured out a solution that works over here:

http://www.gamedev.net/community/forums/topic.asp?topic_id=567378

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I think this solution will work great for your spesific case, but it would probably not be a good idea for the more general case of "making a hash key for 3d vector", since there might be no maximum size. –  Lennart Rolland Mar 31 '13 at 20:48

The grid approach is going to have problems near the boundaries of the grid boxes. Why not use BSP trees instead?

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My preferred hashing function for this kind of vector is to rotate the bits of each component by a different constant and XOR them together.

It's very fast, and the bit rotations are helpful to reduce collisions and ensure as much of the key space as possible is used.

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Would that be something like this? `x << 1 ^ y << 2 ^ z << 3`? –  thomthom Sep 12 '12 at 13:44
I think he meant rotate and not shift. –  legends2k Mar 27 '14 at 10:47

here are a few references you could look at. Warren's papers discuss the hash algorithm in detail:

A parallel hashed Oct-Tree N-body algorithm

A portable parallel particle program

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