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I'm sorry to bother you I know this question have been asked quite a lot but never with Ada... I was wondering if there were in the Ada standard library a way to generate a list of unique random numbers (you never pick twice the same number) in O(n) In a way is there an implementation of the Knuth-Fisher-Yates algorithm in Ada?

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2  
I'm not aware of any library that already has this, but that K-F-Y algorithm looks pretty straightforward to implement. –  Marc C Mar 19 '11 at 13:06

3 Answers 3

up vote 5 down vote accepted

There's a discussion of implementing the Fisher–Yates shuffle here. Basically, you need a different range of Discrete_Random in each iteration, but Float_Random is an alternative, as mentioned in A.5.2(50), Note 16. If bias isn't critical, this example may be sufficient.

In any case, shuffling is O(n), but selecting can be O(1).

Addendum: The complexity of creating the set depends on the implementation. For example, Containers.Hashed_Sets, A.18.8(88/2) and Containers.Ordered_Sets, A.18.9(116/2).

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Isnt Dealing/Generating the numbers O(n) also ? after all one needs to check if the number is unique ? (repeated linear search on an array) –  NWS Mar 21 '11 at 9:24
    
@NWS: Good point. I used the word dealing carelessly; I meant selecting. IIUC, uniqueness is coincident with creating the initial set, with complexity depending on the implementation. –  trashgod Mar 21 '11 at 11:23
    
getting back to the Question, if we generate and put in a sorted list, Before we shuffle the numbers might reduce a little :). –  NWS Mar 21 '11 at 12:03
1  
@NWS: Fisher–Yates only permutes an existing set. The complexity of creating the set depends on the implementation. –  trashgod Mar 21 '11 at 12:34
    
Thats what i thought :) –  NWS Mar 21 '11 at 12:50

Given that you want: a) Random numbers from 0 to 1000 and b) the numbers are not to repeat according to the link you provided, you could do this rather easily.

Just fill an array with the range of values and perform some number of swaps on randomly chosen elements thereof; this guarantees both requirements are upheld.

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+1 This is the straightforward approach, but the selection of "some number of swaps" can be a source of bias. –  trashgod Mar 20 '11 at 15:26
    
This is true. However you may be able to reduce that a bit by using a RNG with a cycle/range equal to your Array's range (perhaps using MOD) and swapping that index with the 'current' element for all elements. Then the main thing that the bias would come from would be the RNG itself. –  Shark8 Mar 24 '11 at 1:51
    
In the example cited the bias hinges on "selecting j from the entire range of valid array indexes on every iteration." Sadly, it's over and above any bias from the PRNG. –  trashgod Mar 24 '11 at 3:48

I took the liberty of coding it up. You'll need to With Ada.Numerics.Discrete_Random.

   Generic
      Low, High : Integer;
   Package Initialization is
      SubType Element is Integer Range Low..High;
      Function Incrementor Return Element;
      Type Element_Array is Array(Element) of Element;

      Values : Element_Array;
      Procedure Print;
   End Initialization;

   Package Body Initialization is
      Count : Element := Element'Last;

      Function Incrementor Return Element is
      begin
         Return Result : Element:= Count do
            Null;
            Count:= Element'Pred( Result );
         Exception
               When Constraint_Error => Count:= Element'Last;
         End Return;
      end Incrementor;

      Procedure Swap( Index_1, Index_2 : In Integer ) is
         Temp : Constant Element:= Values( Integer(Index_1) );
      begin
         Values( Integer(Index_1) ):= Values( Integer(Index_2) );
         Values( Integer(Index_2) ):= Temp;
      end Swap;

      Procedure Print is
      begin
         Put_Line( "Length: " & Values'Length'Img );
         Put( "(" );
         For Index in Values'First..Integer'Pred(Values'Last) loop
            Put( Values(Index)'Img & ',' );
         end loop;
         Put( Values(Values'Last)'Img );
         Put_Line( ")" );
      end Print;


   Begin
      Shuffle:
      Declare
         Package Random_Element is New
        Ada.Numerics.Discrete_Random( Element );
         Number : Random_Element.Generator;
         Use Random_Element;
      Begin
         Values:= Element_Array'( Others => Incrementor );
         Reset( Number );
         For Index in Element'Range loop
            Swap( Integer(Index), Integer(Random(Number)) );
         end loop;
      End Shuffle;
   End Initialization;

And you can test it out with something like:

   Test:
   Declare
      Package Q is new 
    Initialization( Low => 0, High => 1000 );
   Begin
      Q.Print;
   End Test;
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Becasue it selects from "the entire range of valid array indexes on every iteration," I'm afraid this has the the same bias. –  trashgod Mar 24 '11 at 3:53
    
But selecting an invalid index would be, in a word, erroneous. –  Shark8 Mar 27 '11 at 22:11
    
The selection isn't out of range; it just makes some shuffles more likely than others. You have to select from the remaining elements in each iteration. This article finally helped me see how. –  trashgod Mar 28 '11 at 2:35

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