My question is related to user defined function in set operations, but I think I can cut to the core of the problem:

How do I choose a specific hashing function? For example, if I want to do value-based matching rather than reference-matching, and I want to see whether a certain tuple is present (or simply delete it):

my %data := (1, 2), (3, 4);
%data{$(1, 2)}:delete; # False

In C++ or C#, I could give a custom hashing/comparison function to the constructor. In C#, hashing by value will automatically happen if my data type is a struct (a value-type rather than a reference-type). Perl 6 does value-type hashing to some extent for Pair (if the Pair doesn't contain any containers), but I don't see how to make it work for any other complex type.

On one hand, I get why this isn't the safest operation--it's easy to define objects whose hash code can change after they've been inserted. But that hasn't stopped .NET and the C++ STL from allowing custom hashing.

The a possible API usage (with the chained hashing logic inspired by this, originally from Boost) would be:

class MyHasher does Hasher of Array[Int] {
  method get-hash-value(Int @array) {
      -> $a, $b {$a +^ ($b + 0x9e3779b97f4a7c16 + ($a +< 6) + ($a +> 2))},
  method equals(Int @a, Int @b) { @a eqv @b; }

my %data :=
  my Int @=[1, 2], my Int @=[3, 4],
say %data{$[1, 2]}; # should be True

And this would be the hasher role, which should be provided by the Perl 6's core library, if it doesn't already exist:

role Hasher[::T=Any] { method equals(T $a, T $b --> Bool) { ... }; method get-hash-value(T $obj) { ... } }

Solution: At present, the most reasonable solution is to override a class's .WHICH method, which serves as a hash value and is used for equality testing. I gave an example of a hash-key class which emulates a value-type here. It's almost as versatile as a custom hash function per hash object, since the key type can be declared when the hash is created. (This can't be done for Set since Set isn't parameterized.)

  • Note that the constructor can't simply be overloaded, because the current design is that all arguments are turned into set elements, so :hasher(hash-logic) would get swallowed into the data structure. – piojo Dec 10 '17 at 9:32
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    FWIW, only takes positionals, and currently ignores named parameters: dd # – Elizabeth Mattijsen Dec 10 '17 at 14:16
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    Allowing for a custom Hasher function would be quite a lot of work as far as I can see at the moment, and would affect performance negatively in the general case. Also, I'm not entirely sure whether .classify ( with a mapper such as above, isn't really what you are after. Could it be? – Elizabeth Mattijsen Dec 10 '17 at 15:21
  • Thanks for the correction, @ElizabethMattijsen. I sometimes forget the difference between passing a pair and a named argument [which is a pair]. – piojo Dec 11 '17 at 2:42
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    Please note that .classify also has an :into' named parameter (which appears to be undocumented apparently), that allows my %h = 97 => ["a"]; <b c d>.classify( *.ord, :into(%h) ); dd %h # Hash %h = {"100" => $["d"], "97" => $["a"], "98" => $["b"], "99" => $["c"]}. Which should make using .classify as a type of Set easier. – Elizabeth Mattijsen Dec 11 '17 at 21:10

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