# Creating a 4 digit Random Number using java with no repetition in digits

I wrote a code using java to create a random 4 digit number with no repetition of digits, the code I wrote is given below :-

``````Random r = new Random();
d1 = r.nextInt(9);
d2 = r.nextInt(9);
d3 = r.nextInt(9);
d4 = r.nextInt(9);
while(d1==d2||d1==d3||d1==d4||d2==d3||d2==d4||d3==d4)
{
if(d1==d2||d2==d3||d2==d4)
{
d2 = r.nextInt(9);
}
if(d1==d3||d2==d3||d3==d4)
{
d3 = r.nextInt(9);
}
if(d1==d4||d2==d4||d3==d4)
{
d4 = r.nextInt(9);
}
}
System.out.println(d1+""+d2+""+d3+""+d4);
``````

here are the test cases(generated from `System.out.println(R1+""+R2+""+R3+""+R4);`) are as following :-

`````` 0123 |  OK as required
1234 |  OK as required
2123 |  not OK because 2 is present more than one time
9870 |  OK as required
0444 |  not OK because 4 is present more than one time
``````

Now My question here is, that if there is some better way to do this. If I could enhance it in some way?

• I'm not sure if this would be the best way but use a `Set<Integer> set = new LinkedHashSet<Integer>();` and use a `while` loop until its size is 4 (or the size you desire) and inside the loop keep adding your random integers. – Luiggi Mendoza Aug 19 '13 at 15:16
• ok will try that, thanks – kakabali Aug 19 '13 at 15:18
• If I figured it right there are 5040 possible combinations. Make an array with all 5040 values and select from it with a random number modulo 5040. – Hot Licks Oct 9 '13 at 0:57
• Generate a random number between 0 and 5039. Take modulo 9 for the first digit, modulo 8 for the second, modulo 7 for the 3rd, etc. After you have the numbers increment any dupes in the list. – Hot Licks Oct 9 '13 at 21:10

Create a list of integers from 0 to 9, shuffle it and extract the first 4.

``````public static void main(String[] args) {
List<Integer> numbers = new ArrayList<>();
for(int i = 0; i < 10; i++){
}

Collections.shuffle(numbers);

String result = "";
for(int i = 0; i < 4; i++){
result += numbers.get(i).toString();
}
System.out.println(result);
}
``````

There's some ugly string-to-int conversing going on, but you get the idea. Depending on your use case you can see what is needed.

A couple of approaches:

1. Use a Set to hold the digits and keep adding random digits until the set has four values in it.

2. Create an array with values 0-9 in it. Shuffle the array and take the first four values.

If performance matters, you will want to try a couple of different methods and see which is faster.

Here's my approach, even though it uses a lot of string parsing but no data structure:

`````` static int generateNumber(int length){
String result = "";
int random;
while(true){
random  = (int) ((Math.random() * (10 )));
if(result.length() == 0 && random == 0){//when parsed this insures that the number doesn't start with 0
random+=1;
result+=random;
}
else if(!result.contains(Integer.toString(random))){//if my result doesn't contain the new generated digit then I add it to the result
result+=Integer.toString(random);
}
if(result.length()>=length){//when i reach the number of digits desired i break out of the loop and return the final result
break;
}
}

return Integer.parseInt(result);
}
``````

Use a Set maybe?

``````Random r = new Random();
Set<Integer> s = new HashSet<Integer>();
while (s.size() < 4) {
}
``````

Create a list with Integer from 0 to 9 (so 10 items in total)

``````List<Integer> l = ...
Collections.shuffle(l);
d1 = l.get(0);
d2 = l.get(1);
d3 = l.get(2);
d4 = l.get(3);
``````

Here is my solution without using any additional data structure, looping on generating random number till it has unique digits.

``````int a = 0, b = 0, c = 0, d = 0;
int x = 0;
while (true) {
x = r.nextInt(9000) + 1000;
a = x % 10;
b = (x / 10) % 10;
c = (x / 100) % 10;
d = x / 1000;
if (a == b || a == c || a == d || b == c || b == d || c == d)
continue;
else
break;
}

System.out.println(x);
``````

Roughly (not tested):

``````int randomNum = r.nextInt(5040);
int firstDigit = randomNum % 10;
randomNum = randomNum / 10;
int secondDigit = randomNum % 9;
randomNum = randomNum / 9;
int thirdDigit = randomNum % 8;
randomNum = randomNum / 8;
int fourthDigit = randomNum % 7;

if (secondDigit == firstDigit) {
secondDigit++;
}

while ((thirdDigit == firstDigit) || (thirdDigit == secondDigit)) {
thirdDigit++:
}

while ((fourthDigit == firstDigit) || (fourthDigit == secondDigit) || (fourthDigit == thirdDigit)) {
fourthDigit++;
}
``````

(After coding this I realized that the increment operations need to be done modulo 10.)