# Quick and Efficient way to generate random numbers in Java

I am writing a multi-threaded Java program that generates lot of random numbers.

Additional Details: These numbers are used to create a list of random numbers from 0-99 without repetition and such that every number in the range 0-99 exists in the list (In other words, the list contains 100 unique elements in the range 0-99).

Generating Random Numbers [Things already tried!]

1. I have an ArrayList of numbers from 0-100. I generate a random number and use it as an index which is used to pop out an element from the `ArrayList`.
2. I have used `Collections.shuffle()`.

Here is the code for approach 1:

``````ArrayList<Integer> arr = new ArrayList<Integer>();
for (int i = 0; i < N; i++){
}

for(int i=0; i<N; i++){
int indx = rand.nextInt(arr.size());
arr.remove(indx);
}
``````

For second approach, I replaced the second `for` loop with `Collections.shuffle(arr)`.

As generating list of random numbers is the most expensive part of my algorithm, I want to optimize it. This brings me to the questions:

1. What is the fastest way to generate random numbers?
2. What is the fastest way to generate the list of random numbers as described above?

PS:

1. I found `Collections.shuffle()` to be slower than the first approach
2. Someone suggested me using `rngd` to generate random numbers from hardware in Unix. Has anyone tried this before? How do you do that?
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You say you found `Collections.shuffle()` slower than your first approach. May I ask by how much? For 100 numbers, both approaches should take an almost imperceptible amount of time. –  dlev Mar 10 '12 at 19:06
You are generating randomly ordered, unique numbers. Not random numbers. There is a huge difference. –  Jeffrey Mar 10 '12 at 19:26
@dlev I actually did not measure time from within the program. I was using Netbeans profiler. But, in the first case the time was somewhere around 50ms while it was 80ms in the second approach for the whole program –  Ankit Mar 10 '12 at 20:17
@Jeffrey Yes, sorry for the language! Please edit accordingly. –  Ankit Mar 10 '12 at 20:18
@Jeffrey: In mathematics, it is common practice to pull elements (numbers) without repetition. I think it is perfectly valid to name these random numbers. –  user unknown Mar 10 '12 at 20:35

I think the problem with `Collections.shuffle()` is that is uses default `Random` instance which is a thread-safe singleton. You say that your program is multi-threaded, so I can imagine synchronization in `Random` being a bottle-neck.

If you are happily running on Java 7, simply use `ThreadLocalRandom`. Look carefully, there is a version of `shuffle()` taking `Random` instance explicitly:

``````Collections.shuffle(arr, threadLocalRandom);
``````

where `threadLocalRandom` is created only once.

On Java 6 you can simply create a single instance of `Random` once per thread. Note that you shouldn't create a new instance of `Random` per run, unless you can provide random seed every time.

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Part of the problem might be the overhead of the Integer boxing and unboxing. You might find it helpful to reimplement the Fisher-Yates shuffle directly on an `int[]`.

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My approach woul be to generate the numbers with the `Math.random()` method as in the example here and initialize the list via a static init block like this:

``````private static List<int> list = new ArrayList<int>();
static {
for(int i = 0; i < 100; i++) {
// randomize number
}
}
``````

Hope this helped, have Fun!

-

To shuffle an array a of n elements (indices 0..n-1):

``````for i from n − 1 downto 1 do
j ← random integer with 0 ≤ j ≤ i
exchange a[j] and a[i]
``````

Check Fischer and Yattes algorithm.

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This is exactly what `Collections.shuffle()` is doing. –  Tomasz Nurkiewicz Mar 10 '12 at 19:15
@Tomasz Nurkiewicz, is it good or bad? ;) –  aviad Mar 10 '12 at 19:16
Good and bad :-). Good because your pseudo-code is correct. Bad - because the OP already tried it without luck. –  Tomasz Nurkiewicz Mar 10 '12 at 19:18