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I'm using the SHA3 specification as a learning example for the Ada programming language.

The spec contains a family of data structures call Permutations, there are seven of these and they differ only by being able to handle different amounts of data. They contain a three-dimensional "State Array" where the first two dimensions are always mod 5 and the third dimension is mod N, where N is limited to these few values: 25, 50, 100, 200, 400, 800 and 1600.

I'd normally think to use generics to make the distinction between each package variation, but the difference is a number, and not a type.

How might I sensibly design my package / record types?

The only way I can think of doing this is to simply make a set of explicit types...

package Perm_25 is...
package Perm_50 is...
package Perm_100 is...
package Perm_200 is...
package Perm_400 is...
package Perm_800 is...
package Perm_1600 is...

Clearly that is nonsensical because it's laborious and requires me to duplicate a lot of code, which would invite inconsistencies.

Also I'm not convinced that OOP would help here because the types really aren't different apart from some array dimensions.

How should I approach this problem?


EDIT: Thanks to user @flyx for the tip to use a Static_Predicate subtype and a discriminated record type. Using that advice I have managed to get the following code to compile...

package body SHA3 is

  subtype Perm_w_Coeff_Type is Positive
    with Static_Predicate
      => Perm_w_Coeff_Type in 1 | 2 | 4 | 8 | 16 | 32 | 64;

  subtype Perm_l_Coeff_Type is Natural range 0 .. 6;

  type State_Array_Type is array (Natural range <>, Natural range <>, Natural range <>) of Boolean;

  -- (see FIPS202 section 3)
  type KECCAK_p_Permutation (bPW : b_Permutation_Width; numRounds : Positive; W_Coeff : Perm_w_Coeff_Type) is
    record
      b : b_Permutation_Width := bPW;


      -- initialise w based on a lookup table using b as its index
      -- (see FIPS202 section 3.1, table 1)
      w : Perm_w_Coeff_Type := (
          case bPW is
            when 25 => 1,
            when 50 => 2,
            when 100 => 4,
            when 200 => 8,
            when 400 => 16,
            when 800 => 32,
            when 1600 => 64
            );

      -- initialise l based on a lookup table using b as its index
      -- (see FIPS202 section 3.1, table 1)
      l : Perm_l_Coeff_Type := (
          case bPW is
            when 25 => 0,
            when 50 => 1,
            when 100 => 2,
            when 200 => 3,
            when 400 => 4,
            when 800 => 5,
            when 1600 => 6
            );

      n_sub_r : Positive := numRounds;

      State_Array : State_Array_Type (0 .. 4, 0 .. 4, 0 .. W_Coeff);
    end record;


  procedure Run is
  begin
    null;
  end Run;


end SHA3;
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subtype Third_Dimension_Type is Natural with
  Static_Predicate => Third_Dimension_Type in 25 | 50 | 100 | 200 | 400 | 800 | 1600;

I don't know what you mean by „the first two dimensions are always mod 5“, but assuming you mean they have 5 entries, the resulting data type would the be something like:

type Permutation (Third_Dimension : Third_Dimension_Type) is record
   State : array (1..5, 1..5, 1..Third_Dimension) of Item_Type;
end record;

Note that you cannot specify an array type that takes two discrete ranges and one indefinite range (e.g. Third_Dimension_Type range <>), so you need to use a discriminated record instead.

  • This looks promising. Seems that my version of gnat (4.4.7) doesn't like the syntax, so I'll try this in a few hours on my other PC which has the latest gnat 7.4.0 (with 2012 support) installed on it. – Wossname Sep 13 at 13:00
  • 2
    Static_Predicate is Ada 2012. For earlier Ada versions, you'd just declare Third_Dimension_Type as Natural and can't enforce it to only hold one of the valid values. – flyx Sep 13 at 13:15
  • It worked!... kind of :) now I have a whole bunch of other syntactical nightmares to fathom out. Thank you for pointing me in the right direction. Cheers. – Wossname Sep 13 at 18:00
  • p.s. I've updated the question with the code resulting from your advice. It's not close to finished yet but it mostly illustrates what I wanted to do. I think the next thing for me to do is figure out how to pass in a single record (instead of three separate fields) that makes the dimension sizes a bit easier to understand. – Wossname Sep 13 at 18:21
  • You'd have to use an access type in the discriminant to have everything in a single value. I'd advice against w and l being parts of the record; they seem to be functions on b_Permutation_Width and should be implemented as such. Default values in the record can be overridden which is certainly not what you want. – flyx Sep 14 at 9:08
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I haven't gone for the detail of your question, but I'm answering something that caught my eye: you say you can't use generics because the parameter that changes isn't a type. However, you can parameterize generics with values (not saying that's the best approach in this case, but that you can do it):

generic
   Foo : Integer := 5; -- Or any other type.
package Bar is ...

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