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Not sure how else to explain this, so the title pretty much describes the problem.

Random is not being re-initialised every part of the loop. It's a static member of a class which I always call on from other classes.

I am not using a custom seed.

The initialisation code is:

    public static Random random = new Random();

        for (int x = 0; x < 75; x++)
        {
            if (main.random.Next(11) == 1)
            {
                tiles[heightMap[x] - 1][x] = 4;
                tiles[heightMap[x] - 2][x] = 4;
                tiles[heightMap[x] - 3][x] = 4;
                tiles[heightMap[x] - 4][x] = 4;
                tiles[heightMap[x] - 5][x] = 4;
                tiles[heightMap[x] - 5][x - 1] = 5;
                tiles[heightMap[x] - 6][x - 1] = 5;
                tiles[heightMap[x] - 6][x] = 5;
                tiles[heightMap[x] - 5][x + 1] = 5;
                tiles[heightMap[x] - 6][x + 1] = 5;
            }
        }

This (Ignore my ugly hax for making a tree, it's rudimentary and temporary) generates a tree.

However my terrain often looks like:

AIR AIR AIR AIR TREE TREE TREE AIR AIR TREE TREE AIR AIR AIR AIR TREE TREE TREE

As in it seems to get clusters of 1 at a time.

Can anyone give insight into why this is happening? Is there a better alternative than using the System.Security.Cryptography.Random class (Since that's slower and this is a game not a bank program I want it to have very fast loading speeds)

I'd expect an average of 9 gap per tree, but it's more like 7 and then 3 trees closely clustered together.

enter image description here

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15  
    
Nice comic, very true. :( –  Ashley Davies Apr 28 '12 at 21:18
3  
Random doesn't mean frequent changes in alternative outcomes. Over time, the sequence like this is uniformly distributed. –  codekaizen Apr 28 '12 at 21:18
    
"Over time, the sequence like this is uniformly distributed" Yeah but I still wouldn't expect results like this. It can't really be all that random if it's just giving me, in one group of 10 columns, 4 1s and 6 2-10s... –  Ashley Davies Apr 28 '12 at 21:20
    
If you are truly getting a non-random distribution, you can try normalizing the values to correct for it. –  Joel Cornett Apr 28 '12 at 23:25

1 Answer 1

up vote 35 down vote accepted

This is a probability misunderstanding; all you know is that at any point, the chance of getting a tree in the next slot is, assuming uniform distribution, 1 in 11.

The chance of getting a gap of 0 is thus 1/11

The chance of getting a gap of 1 is thus 10/11 * 1/11

The chance of getting a gap of 2 is thus 10/11 * 10/11 * 1/11

etc

All those 10/11 add (well, multiply) up! So let's write a utility:

decimal accountedFor = 0M;
for (int i = 0; i <= 20; i++)
{
    decimal chance = 1M / 11M;
    for (int j = 0; j < i; j++) chance *= 10M / 11M;
    accountedFor += chance;
    Console.WriteLine("{0:00}: {1:00.0%}\t({2:00.0%})", i, chance, accountedFor);
}

Which gives:

00: 09.1%       (09.1%)
01: 08.3%       (17.4%)
02: 07.5%       (24.9%)
03: 06.8%       (31.7%)
04: 06.2%       (37.9%)
05: 05.6%       (43.6%)
06: 05.1%       (48.7%)
07: 04.7%       (53.3%)
08: 04.2%       (57.6%)
09: 03.9%       (61.4%)
10: 03.5%       (65.0%)
11: 03.2%       (68.1%)
12: 02.9%       (71.0%)
13: 02.6%       (73.7%)
14: 02.4%       (76.1%)
15: 02.2%       (78.2%)
16: 02.0%       (80.2%)
17: 01.8%       (82.0%)
18: 01.6%       (83.6%)
19: 01.5%       (85.1%)
20: 01.4%       (86.5%)

which explains the bias for small gaps. Note; by the time we get up to a gap of size 20, we're into below 1.5% chance territory, and have accounted for 85% of all possible outcomes - the remaining 15% will be spread over the rest of infinity (i.e. a gap of size 13212 is possible, but very unlikely).

So here's a simulation:

int[] gapCounts = new int[21];

int gap = 0;
// simulate a few gaps using your algo
var random = new Random();
for (int x = 0; x < 100000; x++)
{
    if (random.Next(11) == 1)
    { // count that gap
        gapCounts[gap]++;
        gap = 0;
    }
    else
    {
        gap++;
        if(gap >= gapCounts.Length)
        { // just skip anything too large, sorry
            gap = 0;
        }
    }
}

decimal total = gapCounts.Sum();
for(int i = 0 ; i < gapCounts.Length ; i++)
{
    Console.WriteLine("{0:00}: {1:00.0%}", i, gapCounts[i] / total);
}

with output nothing that these values will change every run:

00: 11.0%
01: 09.4%
02: 08.6%
03: 07.9%
04: 07.3%
05: 06.5%
06: 05.4%
07: 05.4%
08: 04.7%
09: 04.5%
10: 04.4%
11: 03.4%
12: 03.5%
13: 03.0%
14: 02.9%
15: 02.4%
16: 02.5%
17: 02.2%
18: 01.9%
19: 01.5%
20: 01.7%
share|improve this answer
    
Very nice answer, kudos. –  yamen Apr 28 '12 at 21:35
    
Yes, show the running cumulative version of the above, it'll be enlightening. –  yamen Apr 28 '12 at 21:37
    
But it seems to lean a lot towards 1 and 7, whereas numbers such as 2 are very rarely picked (In a string of 75 numbers, 2 was picked only four times, and I'm getting this sort of result a lot). It also seems very common to get three 7s in a row, and then not any 7s for a very long time. This isn't just on one run, I'm getting lots of similar patterns like that triple 7 and rare 2 occurrences. From a mathematical point of view I can see where you're coming from, but I just think it's the .NET System.Random class not having a good enough algorithm. –  Ashley Davies Apr 28 '12 at 21:38
    
@Yaman cumulative numbers added –  Marc Gravell Apr 28 '12 at 21:40
2  
@AshleyDavies I added a simulation using your algorithm; data looks about right to me (i.e. roughly consistent with the prediction) –  Marc Gravell Apr 28 '12 at 21:48

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