Is there a way to restrict the conformance of a type to be a collection of types?

Let me explain by example:

give_foo (garbage: ANY): STRING
    do
        if attached {STRING} garbage as l_s then
            Result := l_s
        elseif attached {INTEGER} garbage as l_int then
            Result := l_int.out
        elseif attached {JSON_OBJECT} garbage as l_int then
            Result := l_int.representation
        elseif attached {RABBIT} garbage as l_animal then
            Result := l_animal.name + l_animal.color
        else
            Result := ""
            check
                unchecked_type_that_compiler_should_be_able_to_check_for_me: False
            end
        end
    end

Couldn't I do something like (like a convert function could do)

give_foo (garbage: {STRING, INTEGER, JSON_OBJECT, RABBIT}): STRING
    do
        if attached {STRING} garbage as l_s then
            Result := l_s
        elseif attached {INTEGER} garbage as l_int then
            Result := l_int.out
        elseif attached {JSON_OBJECT} garbage as l_int then
            Result := l_int.representation
        elseif attached {RABBIT} garbage as l_animal then
            Result := l_animal.name + l_animal.color
        else
            Result := ""
            check
                unchecked_type_that_compiler_should_be_able_to_check_for_me: False
            end
        end
    end

or something like

not_garbage_hash_table: HASH_TABLE[{INTEGER, STRING, ANIMAL}, STRING]
up vote 1 down vote accepted

Conformance to a collection of types is not supported for several reasons:

  • Calling a feature on an expression of such a type becomes ambiguous because the same name could refer to completely unrelated features.
  • In one case we need a sum (disjoint union) of types, in the second - plain union, in the third - an intersection, etc. And then, there could be combinations. One would need an algebra built on top of a type system that becomes too complicated.
  • If the requirement is to check that an argument is one of expected types, the following precondition can be used:

    across {ARRAY [TYPE [detachable ANY]]}
            <<{detachable STRING}, {INTEGER}, {detachable JSON_OBJECT}>> as t
    some argument.generating_type.conforms_to (t.item) end
    
  • A common practice to process an expression of a potentially unknown type is a visitor pattern that deals with known cases and falls back to a default for unknown ones.

Possibly place Alexander's solution in a BOOLEAN query so it can be reused?

is_string_integer_or_json_object (v: detachable ANY): BOOLEAN
         -- Does `v' conform to {STRING}, {INTEGER}, or {JSON_OBJECT}?
    do
       across {ARRAY [TYPE [detachable ANY]]}
        <<{detachable STRING}, {INTEGER}, {detachable JSON_OBJECT}>> as t
       some v.generating_type.conforms_to (t.item) end
    end
  • Was just thinking about that! even as invariant! – Pipo Oct 11 at 13:45
  • was wondering no loop keyword is required? – Pipo Oct 11 at 13:46
  • Two comments: 1) if v is detachable, there should be a special case for Void; 2) there is a syntax error, the across should be prefixed with Result := . – Alexander Kogtenkov Oct 11 at 13:51
  • The some keyword is in place of the loop keyword because this across has a BOOLEAN Result. – Larry Rix Oct 12 at 14:06

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