Hm, it sounds like a refinement that if you don't get the refinement it finds another way
I think that, I sort of get what you're saying, and that it's further support for what I've been trying to do... to say that FUNC and FUNCTION aren't the end-all-be-all of generators
at the risk of sounding foolish I was thinking of something like where I have the following: interleave: func [blk [series!] item [string!]] [ pos: next blk while [not tail? pos] [ pos: next (insert pos item) ] return blk ] things: ["a man" "a plan" "panama"]
but I could call interleave like this:
interleave ?block ?string
and the session might look something like:
>> interleave ?block ?string runtime-request (series!) >> things runtime-request (string!) >> "," == ["a man" "," "a plan" "," "panama"]
ok, maybe that's my answer then. in my dialect, i liked the friendly option of being able to write a placeholder parameter and then be able to prompt for it instead of throwing an error.
It would be trickier if it got the typeset from the function, and perhaps a bit more tricky with my proposal above, but probably effectively the same in practice (as I'm reasoning it out)
Because a parameter doesn't know what function it's fulfilling for, at this point.
That kind of sensitivity, like a cast or coercion, could be interesting but it does also open up some cans of worms.
and it's not much code to do the asking, but I was doing it a lot in my code, and i thought it would be cool to be able to have the option of letting the program ask you
as a more general thing built into the interpreter / type sytem
Well, I can say that it seems the one missing element you've got there, is to have a kind of reactivity where a parameter can be intelligent about what kind of slot it's fulfilling in the call.
As I said, I don't see what's stopping that right now. ?series: does [ask ...]
You know you need a series, because they said ?series. The trick is if it was just ?i-dunno, how would it guess. That function has no information about interleave, it's not even on the stack (yet)
not sure what you mean there... you can always code a way to ask for a param. i was looking to reduce having to do that manually-- i could just have a form of placeholder datatype which would tell the interpreter to prompt for it
Right, but I was saying that prompting--the act of it--is a function. ?series: does [whatever] could imperatively make ?series just a normal old zero-arity function.
I said that the special tricky thing, that a function could not do, would be to... let's say, change the ordering. Or gather them all at once.
Like, make a dialog out of all the arguments to one unit's worth of call. If you needed a dialog box that got both a series and a string, you'd need enough information to construct that dialog box.
i was thinking that if the function is doing a check for the datatype, that was when if it encountered this other notation (?some-datatype!) that it could ask for the param
Yes, fill in the value here, through whatever UI, should the evaluator reach this point.
do [print ???] would prompt you, and then print back what you entered. It ideally would know the type it was fulfilling and for what call, to tell you.
Anyway, so I consider it valid to want such a thing, but it would be a major complexity shift to get into the idea of arguments being sensitive to the slots they fit in. This has been studied quite well elsewhere, and it is a can of worms, so if there is to be treading into that territory it should be done carefully and with good reason.
My interests kind of currently are still stuck on seeing if the basic questions of the minimalism and configurability can work out, and I know that's just huge territory.
zero keywords, make your own function generators, fixing definitional scoping... all really are the only reason the rest of it matters
Anyway, gotta run, thanks for bringing up the suggestions, don't be afraid to...
@rgchris It's something...! But I always find there's a lot of what and not a lot of why. I guess my tastes in discussing things is to talk about pathological cases, explain what something isn't and why it isn't that, because to me if you can't define what something isn't then you can't say what it is.
; Brought to you by: try.rebol.nl
No information on sys/*make-port (path has no value)
; Brought to you by: try.rebol.nl
sys/make-port*: make function! [[
{SYS: Called by system on MAKE of PORT! port from a scheme.}
spec [file! url! block! object! word! port!] "port specification"
/local name scheme port
][
case [
file? spec [
name: pick [dir file] dir? spec
spec: join [ref:] spec
]
url? spec [
spec: repend decode-url spec [to set-word! 'ref spec]
name: select spec to set-word! 'scheme
]
@rgchris Hm, yes. Well the newlines are in the consolidated make-boot.r file.
@rgchris Given that I have a ton of not programming things to do today perhaps you can file that as an issue. Also, sent slide deck draft work to your Skype if you want to remark.
@MarkI Knownst is just rare, according to sources. Nothing wrong with using a rare word, especially if understood.
One of the notable changes in ports (obvious, but useful to spell it out—also too in case I'm wrong and can be corrected) is that there's no longer shortcuts using actors. It used to be in Rebol 2 that read url is shorthand for port: open url | result: copy port | close port | result. In Rebol 3, READ is READ and if you need the actions performed by OPEN/COPY/CLOSE, you have to explicitly state that in the READ actor.
Well I do think that it's one of the more interesting aspects of the scheme to have that be automatic.
It would seem that perhaps, if there's a presence of a READ in the scheme, then that gets first priority, but if it's not there it tries open copy close
Additionally READ may need to handle two states---READ URL may need to be handled differently than READ PORT, for example: read http://foo will have different behaviour to location: open http://foo | read location | close location
As I understood it, it had some kind of two phase open, where the first open didn't connect. But yeah. If you want to write up a survey of what you think of the ideal as that would be helpful.
I don't think the change is necessarily bad—there's perhaps less surprises this way. A lot of what I know about Rebol 2 ports is by learning through trial and error. Building schemes more explicitly may be better in the long run.
In viewing the source of the sys/make-port\* function, I noticed a difference in indents/newlines between the output from the source function in the rebolsource binaries to that of Ren/C. Rebolsource binary: Ren/C: Somewhere the new-line state of the source is lost.
Incidentally—per the sys/make-scheme function, when making a scheme, there's a difference when using an object! and block! to specify that port's actors. Blocks are transformed into objects, but not using make object!. Instead each function is built individually and added to a new object spec with the set-words thereby skipping binding—if you have a reference to open in your read function, it'll be global and not the sibling open function.
@rgchris Yes, the workings of the binding in the schemes is confusing. And as it seems you are already doing, if you see questionable behavior compare R3-Alpha and Ren-C, because my engagement of the schemes and actors and such has been limited to keeping http, tls, and file working...kind of killing off what looked like nonsense here and there if that stuff kept going.
@rgchris You might have seen me mention that my going idea for "actions" is that they are really just functions which delegate via code they find from using TYPE-OF their arguments (maybe first argument, up to them)... and that TYPE-OF always returns something context-like for them to look in to find dispatchers.
Hence READ would be an ordinary function, that could have some prelude code... maybe pre-process the arguments, then could use its own function value (for READ) as an identity to look in a map as the key to see if there was a handler for "that" read. With types being contexts, they could have this map (I've suggested calling it the "verb map") as a field in that context. (Types might also have their minimum and maximum values, etc.)
And though I haven't done it yet, while still threatening it, making ACTION! the new term for the OneFunction in Ren-C is on my mind a lot. It's definitely a shift but if one can learn to say "context" instead of "object" while still accepting "object" as nearly interchangeable, then a similar fate for action can be imagined.
Again, consider foo: function [action [action!]] [...] as opposed to foo: function [function [function!]] [...] (doh!) or foo: function [func [function!]] [...] (drat, that's no good either...)
So "function is an action generator..." would be the lingo, and it could even give the core a mild pass by saying that the misnomer of "function" for something that can have side effects and be influenced by things other than the arguments is a mezzanine issue.