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I'm creating a game and want to store positions in a 2d map. Those positions are in pixels, so for example:

{ _id: 1111, map: [
  { x: 850,  y: 2000 },
  { x: 950,  y: 2000 },
  { x: 1050, y: 2000 }
]}

I also thought doing someting like:

{ _id: 1111, map: [
  850:  [2000],
  950:  [2000],
  1050: [2000]
]}

What's the best data structure for a map like this one? Where 0 < x < 2000 and 0 < y < 2000

More details:

  • When fetching a game, I need the full map, I don't need to query only a subset of the map
  • I want the map to be as small as possible to store.
  • More than 3000 elements can be in the map.
share|improve this question
    
Can you provide some information around the queries that you need to be fast. It sounds like you want to be able to quickly retrieve one full map. Will you ever need to retrieve the map conditionally on the position data? Also, are you planning to write out full copies of the map as part of a state saving process, or are you doing this via updating position info through updates/upserts? Thanks –  Dylan Tong Jul 27 '13 at 17:20
    
Interesting question.. In my use-case, I'm only adding new positions in the map. No updates, no removals. –  julesbou Jul 27 '13 at 17:25
    
Ok, so you have a bunch of documents, and you are updating the map with new positions, is that correct? Do you need to enforce each position to be unique? Also, what does one document represent--I like to get an idea of the scale. For instance, does this map represent state for a single user or is it a global share state. –  Dylan Tong Jul 27 '13 at 17:41

5 Answers 5

up vote 2 down vote accepted

If all you care about is keeping a concise map, I would just store an array of integers where one integer represents a point. You use bitwise math to derive x,y:

eg) 65537 = (bits) 0000000000000001 0000000000000001 = x=z>>16, y=z&0xFFFF = (1,1)

UDPATE: Here is some sample JavaScript as requested:

function intToPos(i)
{
    var x= i >> 16;
    var y= i&0xFFFF;

    console.log(x+","+y);
}

var positions=[65537,131074,196611];

for (var i=0; i < positions.length; i++)
{
   intToPos(positions[i])
}

UPDATE: posToInt function:

function posToInt(x,y)
{
    var pos= (x<<16)|y;

    console.log(pos);

    return pos;
}
share|improve this answer
    
Can you give an example in python or php or js ...? –  julesbou Jul 28 '13 at 12:26
    
I've provided a js example above –  Dylan Tong Jul 28 '13 at 16:23
    
Thanks, can you provide posToInt() too? –  julesbou Jul 28 '13 at 18:56
    
I've added it above... –  Dylan Tong Jul 29 '13 at 0:24
    
Congrats, your solution is awesome! I prefer your's because I don't have to define a COLS variable, very handy. –  julesbou Jul 29 '13 at 10:05

2000 * 2000 is only 4000000. So... just store a list of integers and use modulo math to transform into 2-d coords in your application code.

So, for (row, col) coords of (varying the y's to make it clearer, and omitting y==2000 since that's, you know, not <2000)

(850, 1999)
(950, 1289)
(1050, 380)

you'd do (python example)

>>> COLS = 2000
>>> xy2num = lambda x, y: (x*COLS)+y
>>> num2xy = lambda n: (n // COLS, n % COLS)
>>> points = [(850, 1999), (950, 1289), (1050, 380)]
>>> point_nums = [xy2num(x, y) for x, y in points]
>>> point_nums
[1701999, 1901289, 2100380]
>>> [num2xy(num) for num in point_nums]
[(850, 1999), (950, 1289), (1050, 380)]

One way to think about this is as an enumeration of each point on the map:

[(0,0), (0,1), (0,2), <...>, (0,1999),
 (1,0), (1,1), (1,2), <...>,
 (1999,0), (1999,1), <...>, (1999, 1999)]

Each 0<=N<4000000 integer is essentially an index lookup into this list.

Note that there's nothing special about this being 2D - can work for an arbitrary number of dimensions (tho of course the numbers involved start to get prohibitively large).

More fun reading:

http://en.wikipedia.org/wiki/Aleph_number

share|improve this answer
    
Damn! That's awesome. Is there any collision? –  julesbou Jul 27 '13 at 17:11
1  
Assuming you mean the same integer mapping to two possible points, and/or two integers that map to the same point, nope. I've updated the answer with another way you can think about what it's doing. –  AdamKG Jul 27 '13 at 17:46

To store it as small as possibile probably I'd just use

[x1, y1, x2, y2, ..., xn, yn]

then you can easily recreate your Position class instances from the list with

positions = map(Position, L[::2], L[1::2])

assuming the constructor takes x and y as parameters

share|improve this answer
    
+1 for the small size, but honestly I find the data structure strange. –  julesbou Jul 27 '13 at 17:10

Not clear , how big is your map, but generally map would have huge data, so suggest you to go with GridFs rather than storing in collection.

share|improve this answer

Other work around is two location cannot point to the same position, so "X+Y" can become your ID and your search 0,"position":[X,Y]}

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