# Java lotto simulation

I am writing a program simulating a lotto draw of six numbers between 1 and 45, a sample output is 3 7 12 27 43 28. But what I am trying to do is count the number of times adjacent numbers appear, for example 1 4 5 29 26 41 is a positive answer because 5 comes after 4.

What is the best way of doing that?

I have tried examples such as :

``````int adjacent=0;

for(int i =0; i<6; i++)
{
int t = test[i]+1;
test[i]=(int)(45*Math.random())+1;

if(test[i]==t)

System.out.print(test[i]+"    ");
}
``````

This does not work.

What am I doing wrong?

-
what is the output was `1 4 29 5 26 41`, would you still count the 4 and 5? –  Kevin DiTraglia Nov 21 '12 at 16:39
no they would have to be beside each other –  user1816464 Nov 21 '12 at 16:40
Is the order of the results significant? Can your lotto have repeats? –  Colin D Nov 21 '12 at 16:42
Yes the numbers have to go in ascending order eg say 4 was drawn first followed by 5 thats a positive case, no the lotto cant have repeats but I Know how to eliminate that occuring. –  user1816464 Nov 21 '12 at 16:45

I think you just have an order of operations problem

``````int adjacent=0;

for(int i =0; i<6; i++)
{
//test[i] hasn't been set yet
int t = test[i]+1;
test[i]=(int)(45*Math.random())+1;

//this comparison doesn't make a whole lot of sense
if(test[i]==t)

System.out.print(test[i]+"    ");
}
``````

Change it around to something like this:

``````int adjacent=0;

for(int i =0; i<6; i++)
{
test[i]=(int)(45*Math.random())+1;
int t = -1;
//Make sure this comparison only happens after the second iteration
//to avoid index out of bounds
if ( i != 0 )
{
//Set t to the last number + 1 instead of trying to predict the future
t = test[i-1] + 1;
}
//Now this comparison makes a little more sense
//The first iteration will compare to -1 which will always be false
if(test[i]==t)

System.out.print(test[i]+"    ");
}
``````

This can be further simplified to just this:

``````int adjacent=0;

for(int i =0; i<6; i++)
{
test[i]=(int)(45*Math.random())+1;

if(i != 0 && test[i]==(test[i-1]+1))

System.out.print(test[i]+"    ");
}
``````
-
So this will give me a positive result if 8 is drawn followed by 7 for example, or am I misunderstanding the code. –  user1816464 Nov 21 '12 at 16:58
@user1816464 Should be the opposite, I flubbed a plus sign in the shortened version, it is fixed now. –  Kevin DiTraglia Nov 21 '12 at 17:00
Thank You That works now!! Thanks For all your explanation and help! –  user1816464 Nov 21 '12 at 17:09

After you generate your 6 numbers and put them into an array. Use `Arrays.sort()`. You can then compare adjacent array entries.

You should also avoid using Random to generate you 6 numbers, because it can generate duplicates. This may or may not accurately simulate your lotto draw. Quoi's answer has a good suggestion for this.

-
reason for downvote? –  Colin D Nov 21 '12 at 16:41

I think you should shuffle it and take any five. `Collections#Shuffle` would help you, It permutes the specified list using a default source of randomness. All permutations occur with approximately equal likelihood.

``````List<Integer> list = ArrayList<Integer>();
Collections.shuffle(list);
Random rnd = new Random();
Integer[] result = new Integer[5];
result[0] = list.get(rnd.getNextInt(45));
result[1] = list.get(rnd.getNextInt(45));
result[2] = list.get(rnd.getNextInt(45));
result[3] = list.get(rnd.getNextInt(45));
result[4] = list.get(rnd.getNextInt(45));
``````

It always gives you random values, then you should sort it to arrange it in order, say ascending.

``````Arrays.sort(result);
``````

now you can write a loop to find out adjacent number.

``````int adjacent = 0;
for(int i=1; i<result.length;i++){
int prev = result[i-1];
int now = result[i];
if(prev+1 == now)
}
``````
-
I am not sure this answers his question. But this is better than using Random to generate the 6 lotto numbers. –  Colin D Nov 21 '12 at 16:39
The question is about detecting adjacent values, not about how to generate the random numbers in the first place. –  Graham Borland Nov 21 '12 at 16:40
yes u r , I just want to show the correct way to do it. anyway 'any reason for -ve now '? –  Subhrajyoti Majumder Nov 21 '12 at 16:55

You need to separate the generation of unique (hence the HashSet below to insure identity) random selections, sorting them, and then determining adjacency:

``````import java.util.HashSet;
import java.util.Arrays;

public class Lotto
{
public Lotto()
{

}

/**
* @param args
*/
public static void main(String[] args)
{
Lotto lotto = new Lotto();
lotto.randomizeSelections(5);
}

private void randomizeSelections(int numOfArrays)
{
for(int i = 0; i < numOfArrays; i++)
{
int[] selArry = new int[6];
//to insure that each random selection is unique
HashSet<Integer> idntySet = new HashSet<Integer>();

for(int j = 0; j < 6;)
{
int rndm = (int)(45 * Math.random()) + 1;

//add selection to the array only if it has not been randomized before
if(!idntySet.contains(rndm))
{
selArry[j] = rndm;

j++;
}

}

//sort the array for determing adjacency
Arrays.sort(selArry);

for(int j = 0; j < 6; j++)
{
int sel = selArry[j];
boolean isAdjcnt = (j > 0 && (sel == selArry[j - 1] + 1)) ? true : false;

System.out.println(i + "." + j + ".random = " + sel);