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The code below generates an array of N integer random numbers and stores the result in random_int_array

 N=20
 allocate(array(N/2))
 call random_seed
 call random_number(array)
 random_int_array=int(array*N)

The problem is that I might generates duplicates in random_int_array and I don't want that. How can I remove the duplicate from this array or, equivalently, how can I generate a set of unique random numbers?

Note that array has a dimension N/2. So the problem is basically extract N/2 numbers, without duplicates, out of N.

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And the simplest possible approach, where you simply skip duplicates, isn't good enough? (move items from random_int_array1 to random_int_array2 if they aren't already in the second array) –  Warren P Mar 26 '12 at 15:57
    
it would be enough but I need a smart way to find the duplicates and get rid of them. –  Matteo Mar 28 '12 at 7:59
    
Never mind, I found this page really useful for my problem: rosettacode.org/wiki/Remove_duplicate_elements#Fortran –  Matteo Mar 28 '12 at 8:09
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3 Answers

up vote 3 down vote accepted

It sounds like you want the integers from 1 to 19 in random order. This would be a shuffle of those integers. See, e.g., http://tekpool.wordpress.com/2006/10/06/shuffling-shuffle-a-deck-of-cards-knuth-shuffle/ or http://en.wikipedia.org/wiki/Fisher-Yates_shuffle

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This is not what I'm looking for. I edited the post it should be clearer now. –  Matteo Mar 23 '12 at 16:05
1  
But you could shuffle the N numbers and take only half of them into your array. –  High Performance Mark Mar 23 '12 at 16:34
3  
Or just run the shuffle half way. –  High Performance Mark Mar 23 '12 at 16:47
    
The Wikapedia article states that the Fisher-Yates algorithm is suitable when only a portion of the permutation is wanted. –  M. S. B. Mar 23 '12 at 16:58
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So you're trying to generate one of the possible combinations of size 10 from a set of size 20 ? There are 184756 such combinations. You could generate a single random integer in the range [1..184756] and use that as input to a function to create the n-th combination.

This latter problem is regularly raised on SO, for example Calculate Combination based on position contains a solution.

I make no claims that this approach is better in any general way than repeatedly generating random numbers in the right range and throwing away duplicates until you have a set that satisfies your requirements.

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Define the following function outside your main program

function random_uniform(m)
  implicit none
  integer*8 m
  real*8 random_uniform
  m = mod(7**5*m, 2147483647)
  random_uniform = m / 2147483647.     
end function

Then inside the main function, use this function to generate random array:

m = 1067 !This is your seed which you can change to get different sequence
do i = 1,20
   array(i) = random_uniform(m)
enddo

Note that all the integers are of double precision type (*8). This is must for this function to work properly. Also, to avoid integer division to get random_uniform, we have converted denominator into real (from integer*8)

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Can you describe what it does? How does it guarantee non-repeating values? Is it better than random_number? Note the OP wanted random integer array. –  Vladimir F Jun 28 at 19:08
    
Indeed, @VladimirF. Whilst m will be (generally) long-period this doesn't answer the question without a careful description of how random_uniform is mapped to the integers. –  francescalus Jun 28 at 19:43
    
As you must have noted, this is a linear congruential generator. It was proposed by Lewis, Goodman and Miller in 1969 and has passed many tests successfully (though better generators are available). Note that period of this generator is 2147483647 which is great for any practical purpose. Getting integer array instead of real numbered array is child's play once we have this function. –  Snehal Shekatkar Jun 30 at 5:46
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