I think my "veto" of the idea was that I imagined being asked to be on the hook for bugfixes and features. If we reframe this as something assumed to be accomplishable via emulation, and if you are willing to put in hours to hack and think, then paying it back with fixes that are within reason isn't so bad an exchange.
But I'd like to apply some of the patches mentioned above. If something doesn't depend on UTF-8 Everywhere, it may be easy.
The NULL/VOID!/BLANK! is very much the most important. This means missing refinements will be NULL, and as for what "found" refinements are I never really settled myself on it.
What I like about used refinements incorporating the symbol of the refinement itself was that it made chaining easier, if the names of refinements matched.
It may seem cool to say foo: func [x /only] [bar/(only) x]...but now you've got an assumption that the refinements are named the same thing encoded in there. How much harder is it to write foo: func [x /only] [bar/(if only 'only)]? Is it better to just let a refinement with no arguments be canonized to TRUE / FALSE ?
(I used to espouse that position, if one looks back, as being better than TRUE / NONE.)
So maybe it is only refinements with arguments that use NULL as their unused state, while refinements with no arguments are forced to LOGIC!. I dunno. The one little teeny detail that gets me is that if you create a function frame, all elements default to NULL, and if you execute it and mutate it to FALSE you disrupt the state.
But... then you either force people to canonize the refinement argument somehow, or you permit truthy/falsey things and then canonize it yourself. What's the difference between canonizing to @only
or /only
or only
vs. NULL or the cleaner-seeming canonization to TRUE/FALSE (which Red does, and I used to advocate).
The game has changed on inheriting refinements, because you don't typically implement that by foo/(inherited-refinement1)/(inherited-refinement2) anyway. You use ADAPT or SPECIALIZE or something. Functions which share refinements usually do so for a reason and the relationship is captured in the functional composition.
@rgchris Anyway, I think I've tried about everything I can try for that case. The one thing I do believe is that it's okay for the PATH! evaluation after a function to resolve to NULL if you want to opt out of a refinement, even if NULL doesn't seem to be the kind of thing you'd want to be a no-op in ordinary GROUP! evaluations....
>> obj: make object! [x: 10]
>> obj/(if false ['y])/(if true ['x])
== 10
Does that seem... good or bad?
It doesn't have to be a uniform policy. OBJECT! and ACTION! can treat nulls differently...you could opt out of a refinement selection, but not out of a field selection.
I think I want to go back to TRUE/FALSE for how refinements without arguments are canonized. @giuliolunati ? @ingo ?
Beyond chaining, though, there is a debugging benefit to be considered.
>> foo: func [/x /y /z] [print mold compose ["Foo called" (x) (y) (z)]]
>> foo/x
["Foo called" /x]
>> foo/x/y
["Foo called" /x /y]