6

I am new to C#.

What I am trying to do

I am trying to create a game of chance system here.

Basically this is how it is:

My question: How do I do to accomplish what I am trying to do?

  • Sounds like you're trying to generate a random number and randomly pick an item from a list, where each item in the list has a weighted chance of being picked. Probably the simplest thing to do would be to sum up the "chances" and randomize between 0 and sum(chance), then pick the item that falls on that number. Does that sound right? – Ted Spence Aug 13 '12 at 23:33
  • The Random class has a method Next(int MaxValue) that might help you. Do a little search on it. – Andre Calil Aug 13 '12 at 23:38
5

Your example code has a hard bug: you've written 150/208 and 190/209. This is an integer division, and both result in zero. You should have written: 150.0/208 and 190.0/209 to instruct the compiler to divide them as double's not integers.

Edit:
Assuming the system's RNG is flat and that your table is as follows:

[item]    [amount]
0        3 000 000
25       1 500 000
50       2 000 000
75       300 000
100      10 000
150      10 000    (no typo)
  sum  = 6820000

Then your randomizer can look like:

int randomItemNumber = Random.Next(6820000); // 0..6819999
if(randomItemNumber < 3000000)
    Console.WriteLine("Aah, you've won the Item type #0\n");
else if(randomItemNumber < 3000000+1500000)
    Console.WriteLine("Aah, you've won the Item type #1\n");
else if(randomItemNumber < 3000000+1500000+2000000)
    Console.WriteLine("Aah, you've won the Item type #2\n");
else if(randomItemNumber < 3000000+1500000+2000000+300000)
    Console.WriteLine("Aah, you've won the Item type #3\n");
else if(randomItemNumber < 3000000+1500000+2000000+300000+10000)
    Console.WriteLine("Aah, you've won the Item type #4\n");
else if(randomItemNumber < 3000000+1500000+2000000+300000+10000+10000)
    Console.WriteLine("Aah, you've won the Item type #5\n");
else
    Console.WriteLine("Oops, somehow you won nothing, the code is broken!\n");

The idea is that you put all the items in a looong line, one after another, but you keep them in their groups. So, at start there's three milion of the first kind, then a milion-and-half of the second type and so on. There are in total 6820000 items in the line. Now you randomly pick a number from 1 to 6820000 (or from 0 to 6819999) and use it as the NUMBER of an element in the LINE.

As the items are present in the line with their correct statistical distribution, then if the randomization 1-6820000 was FLAT, then the resulting 'lottery' will have distribution exactly as you you wanted.

The only trick left to explain, is how to guess what item was picked. This is why we kept the items in groups. The first part of 3000000 items is the first type, so if the number was less than 3000000 then we hit the first type. If more than that, but lower than the next 1500000 (lower than 4500000) then the second type is hit.. and so on.

  • I have done that and that code works now. Thanks. But do you think it is enough for what I am trying to do? I am not good with statistics so much. – Jack Aug 13 '12 at 23:46
  • You are on a good way. I've added a long explanation on how the 'generator with tabular distribution' works. Please re-read my post. – quetzalcoatl Aug 13 '12 at 23:54
  • This seems to work very well. I have experimented with it for a while. But I wonder about a few things, sorry if it's too many questions. 1- What do you mean by flat randomization? 2- Does it matter if eventually all the amounts end up to 100%? 3- Why do we not need to use any percentage chance? Does it matter if we don't? 4- Is there anyway I can test this code if I already know probability? For example chance of getting X is 80%, so I run this code in a loop for 50 times and then see if it works. For example then X should be displayed around 80% times in the loop, or? – Jack Aug 14 '12 at 11:48
  • Flat randomization is "the opposite" of what you are trying to do now. "Flat" means that each kind of the response from a random generator is equally probable. If you'd chart a probability-versus-itemtype you'd get a flat line. I've said about the system RNG being flat - our attempt relies on the system RNG to generate us a numbers from 1 to N. What would be if the distribution of that system RNG was not fair, i.e. what if it would generate "555" ten times too often? Our rnd algo would be wrong, because one of the item types would be noticeably favored and we would have to compensate for that. – quetzalcoatl Aug 14 '12 at 12:03
  • 1
    This is already taken into the account. Just look at the if-else branchs and the additions. The last two one before the "oops", first adds a "range of items" +10000, and the second adds another +10000. Thus, in your "virtual straight line of items" you have two sections that are 10000 items long. If the RNG generates a number between 6800000 and 6809999 it will hit the #4, and if it generates a number between 6810000 and 6819999 this will hit the #5. If you do not "see" or "feel" it, try drawing the line of items on a paper and see how the indexes/numbers add up! – quetzalcoatl Aug 14 '12 at 13:41
1

As others have said, your code has an integer division bug.

In any case, you will want to look at: Inverse Transform Sampling.

Basically, it allows you to take a uniform random number (what most PRNGs give you) and transform it to a random sample from any distribution. To do this, you need to use the CDF of the target distribution.

References & useful pages:

[CiteHistory Record]

Edited: I actually meant the categorical distribution, not the multinomial distribution. These two distributions are often conflated (especially in my field), but the difference is important. The two distributions are equivalent only when the multinomial distribution is parameterized with n = 1 (ie. one trial).

0

Something like this should do you. Maybe not the best example in the world, but it should suffice:

class Item
{
    public string Name { get ; private set ; }
    public int    Amount { get ; private set ; }

    public Item( string name , int amount )
    {
        if ( string.IsNullOrWhiteSpace(name) ) throw new ArgumentException("name") ;
        if ( amount < 0 ) throw new ArgumentException("amount") ;

        this.Name = name ;
        this.Amount = amount ;

        return ;
    }
}
static void Main( string[] args )
{
    Random rng   = new Random() ;
    Item[] items = { new Item( "item--0"  , 3000000 ) ,
                     new Item( "item-25"  , 1500000 ) ,
                     new Item( "item-50"  , 2000000 ) ,
                     new Item( "item-75"  ,  300000 ) ,
                     new Item( "item-100" ,   10000 ) ,
                     new Item( "item-150" ,   10000 ) ,
                    } ;
    int    total = items.Sum( x => x.Amount ) ;

    for ( int i = 0 ; i < 100 ; ++i )
    {
        int  r = rng.Next(0, total ) ; // get a random integer x such that 0 <= x < total
        int  n = 0 ;
        Item selected = null ;
        int  lo = 0 ;
        int  hi = 0 ;
        for ( int j = 0 ; j < items.Length ; ++j )
        {
            lo = n ;
            hi = n + items[j].Amount ;
            n  = hi ;

            if ( r < n )
            {
                selected = items[j] ;
                break ;
            }

        }
        Console.WriteLine( "iteration {0}. r is {1} <= {2} < {3}. Selected item is {4}" ,
            i ,
            lo ,
            r ,
            hi ,
            selected.Name
            ) ;


    }

    return;
}
0

I did something similar in my app and will convert it to your problem below: In pseudo code:

  • Sum up all values (to get the total)
  • Get a random value between 0 and the sum
  • Loop through all items summing up all values until that item
  • When reached the random number, that item is the one belonging to the value.

The class Items looks as follows (removed some unimportant lines and added remarks with //

public class Items : List<Item>
{
    public Items() 
    {
        Add(new Item( 0, 3000000)); 
        Add(new Item(25, 1500000)); 
        Add(new Item(50, 2000000));
        // etc
    }

    /// <summary>
    /// Returns a random item based on value.
    /// </summary>
    /// <returns></returns>
    public Item GetRandomItem()
    {
        var sum = this.Sum(item => item.Value);
        var randomValue = new Random().Next(sum);

        // Iterate through itemsuntil found.
        var found = false;
        var itemIndex = 0;
        var visitedValue = 0;
        while (!found)
        {
            var item = this[itemIndex];
            if ((visitedValue + item.Value ) > randomValue)
            {
                found = true;
            }
            else
            {
                itemIndex++;
                visitedValue += item.value;                
            }
        }

        return this[itemIndex];        
    }

The Item class is nothing more than a placeholder for the Name and Value.

It looks long, but it has some benefits:

  • When a value change, the sum is automatically calculated.
  • When adding an item, only one line need to be changed.
0

One divisor must be a double to prevent zeros from division. To calculate the probability you need to cumulate them up to 100% ( or 1 ):

//     Element     - Probability      - Cumulative Probability
//     Item100     10000 / 6820000       0.001466275659824
//     Item75      300000 / 6820000      0.0439882697947214 + 0.001466275659824
//     Item50      2000000 / 6820000     0.2932551319648094 + 0.0454545454545454
//     Item25      1500000 / 6820000     0.219941348973607  + 0.3387096774193548
const double Item100 = 0.001466275659824;
const double Item75 = 0.0454545454545454;
const double Item50 = 0.3387096774193548;
const double Item25 = 0.5586510263929618;

int getRandomItem(Random rnd)
{
    double value = rnd.NextDouble();
    if (value <= Item100)
    {
        // use one of both possible items (100 or 150)
        int which = rnd.Next(0, 2);
        return which == 0 ? 100 : 150;
    }
    else if (value <= Item75)
        return 75;
    else if (value <= Item50)
        return 50;
    else if (value <= Item25)
        return 25;
    else
        return 0;
}

How you would use it:

var rnd = new Random();
var items = new List<int>();
for (int i = 0; i < 100; i++)
    items.Add(getRandomItem(rnd));
Console.Write(string.Join(Environment.NewLine, items));

Note that i reuse the random instance. If i would create it in the loop, the "random value would lways be the same since it would be seeded with the same time.

  • I already tried something like this, the problem was that 25 never got displayed, instead 50 took over all the time. – Jack Aug 14 '12 at 11:52
  • @Jack: I assume that the reason for that behaviour was that you always used a new random instance in a loop. Random will be seeded with the current time. In a loop it will be always the same time, therefor you'll always get the same "random" value. This is the reason why i pass the random instance as parameter to the method. You should create the random instance outside of the loop and always reuse the same. Another option would be to make the random a member variable in the class. – Tim Schmelter Aug 14 '12 at 11:59
  • @Jack: Edited my answer to demonstrate above, also changed the probabilities because they need to be cumulative. – Tim Schmelter Aug 14 '12 at 12:39

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